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Ut austin plasma physics Videos
- 1. Texas Acoustics Student Profile Series: Laura Tseng's Resonator Cavity
- 2. Fusion and Laboratory Plasmas - Science in the 21st Century
- 3. Physics Festival '12 at Texas A&M
- 4. BBO crystal, type I [email protected]
- 5. 2014 TAMU Physics Festival Commercial
- 6. FP Zedonius physics mod 1
- 7. Liquid Nitrogen Explosion - Demonstration at TAMU Physics and Engineering Festival 2013
- 8. LaserLaB Video
- 9. Episode 626 | Clean Room
Texas Acoustics Student Profile Series: Laura Tseng's Resonator Cavity
Laura Tseng, an R and D Acoustics and Signal Processing Analyst at Applied Research Laboratories and recent graduate from UT Austin displays her recent ...
User Comments
SHARATH CHEEKATI
commented
on 23 Feb 2016
good explanation
Fusion and Laboratory Plasmas - Science in the 21st Century
Visit: //seminars.uctv.tv/) Fusion and Laboratory Plasmas with Bruno Coppi, MIT; Herb Berk, University of Texas, Austin; Tom O'Neil, UCSD. [Show ID: 28695]
Physics Festival '12 at Texas A&M
BBO crystal, type I [email protected]
BBO_10_10_12_Type I_23.8deg_AR_800_532 [email protected] Type: BBO crystal, type I Material: BBO optical grade Dimensions: 10 x 10 mm ...
User Comments
delmarphotonics
commented
on 10 Apr 2015
Laser micromachining of transparent glass and quartz dielectrics using nano
short pulsed Nd:YVO4 laser harmonics
Shiva P. Gadag
10 February 2015 • 6:00 - 8:00 PM | Part of SPIE LASE
CW, single-frequency 229nm laser source for Cd-cooling by harmonic
conversion
Yushi Kaneda, J. Michael Yarborough, Yevgeniy A. Merzlyak
10 February 2015 • 8:30 - 8:50 AM | Part of SPIE LASE
517nm - 538nm tunable second harmonic generation in a diode-pumped PPKTP
waveguide crystal
Ksenia A. Fedorova, Phillip R. Battle, Daniil A. Livshits, Edik U. Rafailov
10 February 2015 • 11:40 AM - 12:00 PM | Part of SPIE LASE
Molecular organization and phase transition at the air-water interface
investigated by second-harmonic generation
Emmanuel Benichou, Aurelie Bruyere, Emilie Forel, Oriane Bonhomme,
Pierre-Francois Brevet
10 February 2015 • 5:10 - 5:30 PM | Part of SPIE OPTO
Fiber laser driven ultrafast RGB source based on simultaneous second
harmonic generation from a dual zero dispersion wavelength fiber source
Yuhong Yao, Wayne H. Knox
10 February 2015 • 4:20 - 4:40 PM | Part of SPIE LASE
Frequency doubling of near-infrared radiation enhanced by a multi-pass
cavity for the second-harmonic wave
Daniel Jedrzejczyk, Reiner Guther, Katrin Paschke, Gotz Erbert
10 February 2015 • 9:50 - 10:10 AM | Part of SPIE LASE
Quantitative changes in collagen subtypes during breast cancer progression
by multivariate analysis of Raman and second harmonic generation microscopy
Sixian You, Yuan Liu, Haohua Tu, Eric J. Chaney, Marina Marjanovic, Stephen
A. Boppart M.D.
7 February 2015 • 8:50 - 9:10 AM | Part of SPIE BiOS
Second harmonic generation (SHG) imaging demonstrated a strong dependence
of the collagen hydrogels' structures on the types and concentrations of
ions
Xuye Lang, Julia G. Lyubovitsky
9 February 2015 • 5:20 - 5:40 PM | Part of SPIE BiOS
Interferometric second harmonic generation imaging of biological tissues
Charles-Andre Couture, Maxime Rivard, Konstatin Popov, Mathieu Laliberte,
Anthony Bertrand-Grenier, Amir Miri, Francois Martin, Henri Pepin, Luc
Mongeau, Christian Pfeffer, Cameron Brown, Lora Ramunno, Francois Legare
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Second harmonic 266nm generation by PP-LBGO device
Junji Hirohashi, Tetsuo Taniuchi, Koichi Imai, Masami Hatori, Shunji
Takekawa, Mitsuyoshi Sakairi, Makoto Matsukura, Hiroshi Motegi, Satoshi
Makio, Shintaro Miyazawa, Yasunori Furukawa
10 February 2015 • 8:50 - 9:10 AM | Part of SPIE LASE
Enhancement mechanisms for second-harmonic generation from metal
nanostructures
Martti Kauranen, Robert Czaplicki, Jouni Makitalo, Kalle O. Koskinen,
Joonas Lehtolahti, Janne Laukkanen, Markku Kuittinen
9 February 2015 • 11:15 - 11:45 AM | Part of SPIE OPTO
Differentiating pigmented skin tumors by the tumor-associated melanocytes
based on in vivo third harmonic generation microscopy
Wei-Hung Weng M.D., Ming-Rung Tsai, Yi-Hua Liao M.D., Chi-Kuang Sun
7 February 2015 • 8:10 - 8:30 AM | Part of SPIE BiOS
Determination of the reduced scattering coefficient from 3D imaging of
thick tissues by second harmonic generation microscopy
Paul J. Campagnola, Gunnsteinn Hall, Kevin W. Eliceiri
8 February 2015 • 1:20 - 1:50 PM | Part of SPIE BiOS
Narrowband second harmonic thermoacoustic signals from solid and soft
tissues
Stephan Kellnberger, Murad Omar, George Sergiadis, Vasilis Ntziachristos
9 February 2015 • 5:30 - 7:30 PM | Part of SPIE BiOS
Second harmonic generation at oblique angles in photonic bandgap structures
Han Li, Joseph W. Haus, Partha P. Banerjee
11 February 2015 • 5:00 - 5:20 PM | Part of SPIE LASE
In-phase synchronization of array laser using intra-Talbot-cavity second
harmonic generation
Kenichi Hirosawa, Fumihiko Kannari, Takayuki Yanagisawa
9 February 2015 • 5:10 - 5:30 PM | Part of SPIE LASE
Enhance resolution on OCT profilometry measurements using harmonic artifacts
Marcus Paulo Raele, Lucas De Pretto, Anderson Z. de Freitas
9 February 2015 • 5:30 - 7:30 PM | Part of SPIE BiOS
In situ determination of collagen fibrils size via absolute measurements of
second harmonic generation
Stephane Bancelin, Carole Aime, Ivan Gusachenko, Laura Kowalczuk, Gael
Latour, Thibaud Coradin, Marie-Claire Schanne-Klein
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Controllable harmonic generation by double couplings of ordinary
rays-involved second-order processes
Yiqiang Qin
11 February 2015 • 6:00 - 8:00 PM | Part of SPIE OPTO
Second-harmonic generation with double resonant hybrid plasmonic/dielectric
nanostructures
Heiko Linnenbank, Stefan Linden
9 February 2015 • 11:45 AM - 12:00 PM | Part of SPIE OPTO
Generation of third harmonic picosecond pulses at 355 nm by sum frequency
mixing in periodically poled MgSLT crystal
Thomas Schoenau, Andre Kaltenbach, Gunther Trankle, Kristian Lauritsen,
Rainer Erdmann
10 February 2015 • 6:00 - 8:00 PM | Part of SPIE LASE
Second harmonic generation of a random fiber laser with Raman gain
Sergey A. Babin, Ekaterina I. Dontsova, Ilya D. Vatnik, Sergey I. Kablukov
11 February 2015 • 5:20 - 5:40 PM | Part of SPIE LASE
Third harmonic generation and multiphoton fluorescence in graphene using a
compact femtosecond 1.56 µm laser
Antti Saynatjoki, Lasse Karvonen, Juha Riikonen, Wonjae Kim, Joonas
Makinen, Seyed Soroush Mehravar, Robert A. Norwood, Nasser N.
Peyghambarian, Harri Lipsanen, Khanh Kieu
9 February 2015 • 1:40 - 2:00 PM | Part of SPIE OPTO
Second harmonic generation imaging in tissue engineering and cartilage
pathologies
Magnus B. Lilledahl, Magnus O. Olderoy, Andreas Finnoy, Kristin Olstad, Jan
E. Brinchman
9 February 2015 • 5:20 - 5:35 PM | Part of SPIE BiOS
Correlation between polarization sensitive optical coherence tomography and
second harmonic generation microscopy in skin
Hoan Viet Le, Seunghun Lee, Bumju Kim, Yeoreum Yoon, Ki Hean Kim
11 February 2015 • 3:00 - 3:15 PM | Part of SPIE BiOS
Synchronous-digitization for video rate polarization modulated beam
scanning second harmonic generation microscopy
Shane Z. Sullivan, Emma L. DeWalt, Paul D. Schmitt, Ryan D. Muir, Garth J.
Simpson
10 February 2015 • 11:20 - 11:40 AM | Part of SPIE BiOS
In vivo visualization of collagen fiber produced by cultured osteoblasts
using sensitive second-harmonic-generation microscopy equipped with a 10-fs
mode-locked Ti:sapphire laser
Eiji Hase, Katsuya Sato, Takeshi Yasui
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Experimental and modelling investigations into the laser ablation of Si,
PCD, Cu, steel and WC using picosecond pulses at second harmonics
Paul Borner, Germana Zandonadi, Gregory Eberle, Konrad Wegener
10 February 2015 • 9:00 - 9:20 AM | Part of SPIE LASE
Edge-lit volume holograms recorded by free space exposure: diffraction by
2nd Harmonics in Bayfol® HX film
Friedrich-Karl Bruder, Thomas Faecke, Rainer Hagen, Dennis Hoenel, David
Jurbergs, Enrico Orselli, Christian Rewitz, Thomas Roelle, Guenther Walze,
Brita Wewer
8 February 2015 • 8:40 - 9:00 AM | Part of SPIE OPTO
Realization of high-sensitivity surface plasmon resonance (SPR) sensor
applying 2? harmonic lock-in detection
Chang-In Park, Kwang-Jin Kim, Chang-Gun Kim, Nam-Pyo Hong, Young-Wan Choi
11 February 2015 • 2:25 - 2:45 PM | Part of SPIE OPTO
Super resolution brain imaging by using a two-photon fluorescence
microscopy with harmonic modulation
Szu-Yu Lee, Chi-Kuang Sun
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Competition between harmonic generation and multi-photon luminescence in
selectively grown coaxial InGaN/GaN quantum wells on GaN pyramids for
tunable light emission
Sween J. Butler, Mohamed Fikry, Klaus Thonke, Arup Neogi
11 February 2015 • 2:50 - 3:10 PM | Part of SPIE LASE
100w femtosecond fiber amplifier and harmonic generation from IR to UV
Julien Saby
10 February 2015 • 6:00 - 8:00 PM | Part of SPIE LASE
Sub-cycle control of multi-THz high-harmonic generation and all-coherent
charge transport in bulk semiconductors
Christoph Lange, Olaf Schubert, Matthias Hohenleutner, Fabian Langer,
Thomas Maag, Sebastian Baierl, Ulrich Huttner, Daniel Golde, Thorsten
Meier, Mackillo Kira, Stephan W. Koch, Rupert Huber
10 February 2015 • 1:50 - 2:20 PM | Part of SPIE LASE
Saturation-limited second harmonic generation in a quantum
well-nanoresonator coupled system
Omri Wolf, Salvatore Campione, Arvind P. Ravikumar, Alexander Benz, Sheng
Liu, Emil A. Kadlec, Benjamin V. Olson, Eric A. Shaner, John F. Klem,
Michael B. Sinclair, Igal Brener
11 February 2015 • 6:00 - 8:00 PM | Part of SPIE OPTO
Fiber-integrated second harmonic generation modules for visible picosecond
pulse generation
Thomas H. Legg, Timothy H. Runcorn, Dora J. Hu, Robert T. Murray, Edmund J.
R. Kelleher, Sergei V. Popov, Robert C. Eckardt, Dieter H. Jundt, Andrew
Robertson, James R. Taylor
10 February 2015 • 11:00 - 11:20 AM | Part of SPIE LASE
Motion-free polarization-resolved second harmonic generation cornea imaging
with sub-15 fs pulses
Hans Georg Breunig, Ana Batista, Aisada Uchugonova, Karsten Konig
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Second harmonic generation from metamaterials strongly coupled to
intersubband transitions in quantum wells
Salvatore Campione, Omri Wolf, Arvind P. Ravikumar, Alexander Benz, Sheng
Liu, John F. Klem, Michael B. Sinclair, Igal Brener
11 February 2015 • 1:30 - 2:00 PM | Part of SPIE LASE
Tracing red blood cells in human capillary automatically by third harmonic
generation microscopy
Guan-Liang Lin, Chien-Ming Lee, Yuan-Ta Shih, Ming-Rung Tsai, Chi-Kuang Sun
7 February 2015 • 11:00 - 11:20 AM | Part of SPIE BiOS
20.3% wall-plug efficiency green laser based on an electrically pumped
VECSEL through intracavity second harmonic generation
Pu Zhao, Bing Xu, Robert Van Leeuwen, Tong Chen, Laurence S. Watkins, Delai
Zhou, Jean-Francois Seurin, Peng Gao, Guoyang Xu, Qing Wang, Chuni Ghosh
10 February 2015 • 9:30 - 9:50 AM | Part of SPIE LASE
Terahertz harmonic generation in graphene
Samwel K. Sekwao, Jean-Pierre Leburton
10 February 2015 • 5:40 - 6:00 PM | Part of SPIE OPTO
Generation of stable high order harmonic noise-like pulses in a passively
mode-locked double clad fiber ring laser
Juan C. Hernandez-Garcia, Olivier J. Pottiez, Baldemar Ibarra-Escamilla,
Julian M. Estudillo-Ayala, Roberto Rojas-Laguna, Evgeny A. Kuzin
10 February 2015 • 6:00 - 8:00 PM | Part of SPIE LASE
Combining wide-field assessment with nonlinear optical microscopy:
possibilities for multimodal imaging in epithelial (pre)cancer
Rahul Pal, Jinping Yang, Gracie Vargas
9 February 2015 • 2:05 - 2:20 PM | Part of SPIE BiOS
Multimodal non-invasive optical imaging methods for structure and
functional assay of nociceptive pain model in Drosophila melanogaster
Chiao-Ying Lin, Chii-Wann Lin, Jyh-Horng Chen
7 February 2015 • 2:10 - 2:30 PM | Part of SPIE BiOS
In vivo multimodal optical microscopy for longitudinal tracking of adverse
effects following topical steroid treatment
Andrew J. Bower, Zane A. Arp, Youbo Zhao, Eric J. Chaney, Marina
Marjanovic, Stephen A. Boppart M.D.
7 February 2015 • 11:20 - 11:40 AM | Part of SPIE BiOS
Mode-locking in intracavity frequency doubled Nd:YVO4 laser
Anton V. Kovalev, Vadim M. Polyakov, Sergey G. Alekseev, Oleg A. Orlov,
Andrey A. Mak
10 February 2015 • 3:30 - 3:50 PM | Part of SPIE LASE
False positives in SRS imaging of lipid droplets: identification and
reduction
Xuesong Li, Wen Jiun LAM, Yan Hao, Qiqi Sun, Sicong He, Yan Zeng, Ho Yi
Mak, Jianan Qu
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Self-focusing effect on THG at interfaces of solvent-cuvette
Emerson C. Barbano, Kerrianne Harrington, Sergio C. Zilio, Lino Misoguti
10 February 2015 • 6:00 - 8:00 PM | Part of SPIE LASE
Large-aperture adaptive liquid crystal lenses for vision care
Guoqiang Li, Thomas Mauger
11 February 2015 • 10:20 - 10:50 AM | Part of SPIE OPTO
Real-time monitoring of tumor response to preoperative radiochemotherapy
for rectal carcinoma by nonlinear optical microscopy
Lianhuang Li, Jianxin Chen
10 February 2015 • 11:35 - 11:55 AM | Part of SPIE BiOS
Classification and recognition of texture collagen obtaining by multiphoton
microscope with neural network analysis tool
Shulian Wu, Hui Li, Xiaoman Zhang
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Ten deep blue to cyan emission lines from an intracavity frequency
converted Raman laser
Dimitri Geskus, Jonas Jakutis Neto, Helen M. Pask, Niklaus U. Wetter
10 February 2015 • 9:30 - 9:50 AM | Part of SPIE LASE
Transducing electron and photons in electrically-contacted optical gap
antennas
Alexandre Bouhelier
10 February 2015 • 1:55 - 2:25 PM | Part of SPIE OPTO
High-power non linear frequency converted laser diodes
Paul M. Petersen, Ole B. Jensen, Peter E. Andersen, Anders K. Hansen,
Dominik Marti, Peter M. W. Skovgaard
11 February 2015 • 10:50 - 11:10 AM | Part of SPIE OPTO
Mechanisms for forbidden hyper-Rayleigh scattering
David L. Andrews, Mathew D. Williams, Jack S. Ford
11 February 2015 • 5:40 - 6:00 PM | Part of SPIE LASE
Characterization of porcine eye based on autofluorescence lifetime imaging
Ana Batista, Hans Georg Breunig, Aisada Uchugonova, Antonio Miguel Morgado,
Karsten Konig
8 February 2015 • 2:05 - 2:20 PM | Part of SPIE BiOS
Tunable continuous-wave midwave infrared generation using an orientation
patterned GaAs crystal with a fan-out grating design
Jacob O. Barnes, Shekhar Guha, Leonel P. Gonzalez, Peter G. Schunemann
10 February 2015 • 5:10 - 5:30 PM | Part of SPIE LASE
Optical nonlinearities in few-layer gallium selenide
Lasse Karvonen, Antti Saynatjoki, Seyed Soroush Mehravar, Raul D.
Rodriquez, Susanne Hartmann, Dietrich R. T. Zahn, Seppo K. Honkanen, Robert
A. Norwood, Nasser N. Peyghambarian, Khanh Q. Kieu, Harri Lipsanen, Juha
Riikonen
8 February 2015 • 10:00 - 10:15 AM | Part of SPIE OPTO
0.5W CW single frequency blue at 486 nm via SHG with net conversion of
81.5% from the NIR using a 30 mm PPMgO:SLT crystal in a resonant cavity
Ali Khademian, David Shiner
10 February 2015 • 11:20 - 11:40 AM | Part of SPIE LASE
Nano-scale characterization of gold nanostructures using polarized
nonlinear microscopy
Naveen K. Balla, Carolina Rendon, Esteban B. Urena, Pawel Karpinski, Julien
Dubboiset, Patrick Ferrand, Herve Rigneault, Romain Quidant, Sophie
Brasselet
9 February 2015 • 12:00 - 12:15 PM | Part of SPIE OPTO
Design and results of a dual-gas quasi-phase matching (QPM) foil target
Arvid Hage, Bjorn Landgraf, Michael Taylor, Martin Wunsche, Mark J.
Prandolini, Mark Yeung, Hauke Hoppner, Michael Schulz, Robert Riedel, Franz
Tavella, Brendan H. Dromey, Matthew Zepf
11 February 2015 • 2:30 - 2:50 PM | Part of SPIE LASE
Discontinuous sampling in beam-scanning microscopy
Ryan Muir, Paul D. Schmitt, Emma L. DeWalt, Shane Z. Sullivan, Ximeng You,
Garth J. Simpson
9 February 2015 • 5:05 - 5:20 PM | Part of SPIE BiOS
Breast cancer staging through nonlinear endomicroscopy
Gunnsteinn Hall, Wenxuan Liang, Lu Jiang, Kristine Glunde, Xingde Li
9 February 2015 • 9:05 - 9:20 AM | Part of SPIE BiOS
Watt-level continuous-wave diode lasers at 1180 nm with high spectral
brightness
Katrin Paschke, Gunnar Blume, Olaf Brox, Frank Bugge, David Feise, Jorg
Fricke, Julian Hofmann, Hans Wenzel, Gotz Erbert
9 February 2015 • 2:50 - 3:10 PM | Part of SPIE LASE
Multiphoton microscopy for the characterization and treatment of malignant
breast lesions
Alex J. Walsh, Rebecca S. Cook, Melinda E. Sanders M.D., Carlos L. Arteaga,
Melissa C. Skala
7 February 2015 • 9:50 - 10:10 AM | Part of SPIE BiOS
Nonlinear imaging of lipid membrane alterations elicited by nanosecond
pulsed electric fields
Erick Moen, Gary L. Thompson, Andrea M. Armani, Hope T. Beier, Bennett L.
Ibey
9 February 2015 • 11:30 - 11:50 AM | Part of SPIE BiOS
Ultrafast element-specific magnetization dynamics of complex magnetic
materials on a table top
Stefan Mathias, Chan La-O-Vorakiat, Justin M. Shaw, Emrah Turgut, Patrik
Grychtol, Roman Adam, Denis Rudolf, Hans T. Nembach, Thomas J. Silva,
Martin Aeschlimann, Claus M. Schneider, Henry C. Kapteyn, Margaret M.
Murnane
11 February 2015 • 9:00 - 9:30 AM | Part of SPIE OPTO
Classical electron trajectories and birth time in polar-asymmetric
two-color laser fields
Aram Gragossian, Denis V. Seletskiy, Mansoor Sheik-Bahae
9 February 2015 • 5:50 - 6:05 PM | Part of SPIE OPTO
Coherent combining of fiber-laser-pumped frequency converters using
all-fiber electro-optic modulator for active phase control
Pierre Bourdon, Anne Durecu, Guillaume Canat, Julien Le Gouet, Didier
Goular, Laurent Lombard
12 February 2015 • 3:30 - 3:50 PM | Part of SPIE LASE
Temporal characterization of full attosecond pulse by THz streaking
Fernando Ardana Lamas, Christian Erny, Andrey Stepanov, Ishkhan Gorgisyan,
Pavle Juranic, Christoph P. Hauri
11 February 2015 • 4:50 - 5:05 PM | Part of SPIE OPTO
Nanoplasmonics of particles over thin films: Quantum and magnetic effects
Reuven Gordon, Ghazal Hajisalem, Reza N. Sanadgol, Haitian Xu, Byoung-Chul
Choi
8 February 2015 • 11:20 - 11:40 AM | Part of SPIE LASE
Simulating the linear and nonlinear response of 1D nanostructures with a
B-spline modal method
Patrick Bouchon, Paul Chevalier, Sebastien Heron, Fabrice Pardo, Riad Haidar
11 February 2015 • 4:40 - 5:00 PM | Part of SPIE OPTO
Frequency conversion in AlGaAs microdisks in the telecom range
Giuseppe Leo, Silvia Mariani, Alessio Andronico, Aristide Lemaitre, Sara
Ducci, Ivan Favero
11 February 2015 • 11:30 - 11:45 AM | Part of SPIE OPTO
Imaging human melanoma using coherent anti-stokes Raman scattering (CARS)
and multiphoton microscopy (MPM)
Hequn Wang, Sam Osseiran, Elisabeth Roider, Vivien Igras, David E. Fisher,
Conor L. Evans
10 February 2015 • 11:00 - 11:15 AM | Part of SPIE BiOS
Image-inspired 3D multiphoton excited fabrication of extracellular matrix
structures by modulated raster scanning for cancer biology studies
Paul J. Campagnola, Visar Ajeti, Kevin W. Eliceiri, Manish Patankar
12 February 2015 • 3:50 - 4:20 PM | Part of SPIE LASE
Multi-channel beam-scanning imaging at kHz frame rates by Lissajous
trajectory microscopy
Justin A. Newman, Shane Z. Sullivan, Ryan D. Muir, Suhas Sreehari, Charles
A. Bouman, Garth J. Simpson
10 February 2015 • 11:00 - 11:20 AM | Part of SPIE BiOS
The laser infrastructure of the ELI attosecond light pulse source
Karoly Osvay, Patricio Antici, Dimitris Charalambidis, Eric Cormier, Zsolt
Diveki, Peter Dombi, Jozsef A. Fulop, Mikhail Kalashnikov, Nelson Lopes,
Rodrigo Lopez-Martens, Giuseppe Sansone, Ervin Racz, Kahaly Subhendu,
Zoltan Varallyay, Katalin Varju
12 February 2015 • 9:00 - 9:30 AM | Part of SPIE LASE
Visualizing and quantifying melanoma risk factors with coherent anti-Stokes
Raman scattering (CARS) and multiphoton microscopy
Hequn Wang, Sam Osseiran, Elisabeth Roider, Vivien Igras, Peter T. C. So,
David E. Fisher, Conor L. Evans
7 February 2015 • 11:40 AM - 12:10 PM | Part of SPIE BiOS
Polarization and wavelength selective grating mirror enables efficient
generation of kW-class CW green radiation
Marwan Abdou Ahmed, Martin Rumpel, Montasser Bouzid, Christian Stolzenburg,
Alexander Killi, Thomas Graf
9 February 2015 • 11:50 AM - 12:10 PM | Part of SPIE LASE
Ultrafast thin-disk multipass amplifier with 1.4 kW average power and 4.7
mJ pulse energy at 1030nm converted to 820 w and 2.7 mJ at 515nm
Jan-Philipp Negel, Andre Loescher, Andreas Voss, Dominik Bauer, Dirk H.
Sutter, Alexander Killi, Marwan Abdou Ahmed, Thomas Graf
9 February 2015 • 11:10 - 11:30 AM | Part of SPIE LASE
Nonlinear optical output of atomic systems via numerical simulation of
time-dependent Schrodinger equation, stimulated by laser sources in and out
of resonance conditions within the non-perturbative regime
Stephen Karasek, Charles A. DiMarzio
11 February 2015 • 2:10 - 2:30 PM | Part of SPIE BiOS
controlling femtosecond dynamics on the nanometer scale
Nicolo Accanto, Lukasz Piatkowski, Jan Renger, Niek F. van Hulst
9 February 2015 • 10:30 - 11:15 AM | Part of SPIE OPTO
Sub-700fs pulses at 152W average power from a Tm-doped fiber CPA system
Christian Gaida, Fabian Stutzki, Martin Gebhardt, Florian Jansen, Andreas
Wienke, Uwe D. Zeitner, Frank Fuchs, Cesar Jauregui-Misas, Dieter Wandt,
Dietmar Kracht, Jens Limpert, Andreas Tunnermann
12 February 2015 • 10:40 - 11:00 AM | Part of SPIE LASE
Label-free multimodal multiphoton imaging by adaptively shaping fiber
supercontinuum pulses
Yuan Liu, Haohua Tu, Eric J. Chaney, Sixian You, Stephen A. Boppart M.D.
7 February 2015 • 3:00 - 3:15 PM | Part of SPIE BiOS
Solid-state laser source of narrowband ultraviolet B light for skin disease
care with advanced performance
Aleksandr A. Tarasov
11 February 2015 • 4:40 - 5:00 PM | Part of SPIE LASE
Simultaneous quadruple modal nonlinear optical imaging for gastric diseases
diagnosis and characterization
Zi Wang, Wei Zheng, Jian Lin, Zhiwei Huang
10 February 2015 • 11:45 AM - 12:00 PM | Part of SPIE BiOS
Compact fixed wavelength femtosecond oscillators for multi-photon
applications
Tommi Hakulinen, Heinz P. Huber, Tilman Franke, Ruben Zadoyan, Tommaso
Baldacchini
9 February 2015 • 11:40 AM - 12:00 PM | Part of SPIE LASE
Label-free second order susceptibility imaging of collagen
Chen-Yuan Dong, Chiu-Mei Hsueh, Ya-Der Huang, Hsuan-Shu Lee
9 February 2015 • 3:30 - 3:50 PM | Part of SPIE BiOS
All fiber based, multi-color two photon excitation microscopy with an
amplified laser diode
Sebastian Karpf, Matthias Eibl, Robert A. Huber
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Label-free multi-photon imaging of Barrett esophagus
Seyed Soroush Mehravar, Philip Usera, Hemant Chatrath, Nasser
Peyghambarian, Bhaskar Banerjee, Khanh Kieu
9 February 2015 • 4:20 - 4:35 PM | Part of SPIE BiOS
Biomaterial discrimination using wavelength-dependent SHG excitation
efficiency
Stephen J. Matcher, Nicola H. Green, Robin M. Delaine-Smith, Gwendolen C.
Reilly, Hannah Askew, Xuesong Hu
9 February 2015 • 4:50 - 5:05 PM | Part of SPIE BiOS
Label free, real time visualization of tissue histology at subcellular
resolution: a study of primary versus secondary human brain cancer tissues
Carmen Kut, Wenxuan Liang, Gunnstein Hall, Kaisorn Chaichana, Alfredo
Quinones-Hinojosa M.D., Xingde Li
8 February 2015 • 11:10 - 11:30 AM | Part of SPIE BiOS
Determination of the spectral dependence of reduced scattering and
quantitative SHG imaging for detection of fibrillar changes in ovarian
cancer
Kirby R. Campbell, Paul J. Campagnola, Karissa B. Tilbury
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
High power green diode laser for the treatment of eye diseases by laser
coagulation
Arne Heinrich, Clemens Hagen, Maximilian Harlander, Bernhard Nussbaumer
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Chiral nano-pore arrays with bent-core liquid crystals and their
applications
Dong Ki Yoon, Hanim Kim, Kiback Choe, Seong Ho Ryu, Sunhee Lee, Tae Joo
Shin, Eva D. Korblova, David M. Walba, Noel A. Clark, Sang Bok Lee, Pilhan
Kim
10 February 2015 • 9:15 - 9:30 AM | Part of SPIE OPTO
Two-photon autofluorescence lifetime and shg imaging of healthy and
diseased human corneas
Ana Batista, Hans Georg Breunig, Aisada Uchugonova, Berthold Seitz M.D.,
Antonio Miguel Morgado, Karsten Konig
8 February 2015 • 5:30 - 7:00 PM | Part of SPIE BiOS
Enhanced nanograting formation assisted by silver ions in a sodium
gallophosphate glass: Correlation between surface nanostructuring,
fluorescence, and effective second-order nonlinear optical properties
Marie Vangheluwe, Feng Liang, Yannick Petit, Patricia Hee, Yannick Ledemi,
Sebastien Thomas, Nicolas Marquestaut, Evelyne Fargin, Thierry Cardinal,
Younes Messaddeq, Lionel Canioni, Real Vallee
8 February 2015 • 2:30 - 2:50 PM | Part of SPIE OPTO
Stable miniature short-pulsed VCSEL-pumped laser with monolithic resonator
Uros Orthaber, Rok Petkovsek, Andrej Vrecko, Igor Poberaj
10 February 2015 • 2:40 - 3:00 PM | Part of SPIE LASE
Histology in vivo: chemical contrast combined with clinical multimodal
multiphoton tomograpy
Martin Weinigel, Hans Georg Breunig, Karsten Koenig
10 February 2015 • 11:15 - 11:30 AM | Part of SPIE BiOS
Yb-fiber laser for multimodal imaging
Ilyas Saytashev, Bingwei Xu, Marcos Dantus
9 February 2015 • 4:05 - 4:20 PM | Part of SPIE BiOS
delmarphotonics
commented
on 10 Apr 2015
THz crystals MgO:LiNbO3 https://www.youtube.com/watch?v=nIUDi1xsokw ZnTe,
GaP https://www.youtube.com/watch?v=HqYNoGtE6ME
GaSe https://www.youtube.com/watch?v=KO_ub_Nxr8M
Aspheric focusing silicon lens
//www.dmphotonics.com/THz_components/Aspheric%20focusing%20silicon%20lens.htm
Silicon viewports for Terahertz (THz) radiation
//www.dmphotonics.com/Viewport/Silicon%20viewports%20for%20Terahertz%20(THz)%20radiation.htm
https://www.youtube.com/watch?v=uoE9mJzTPwk
Sample specs:
Si_CF63_viewport_60_4 - request a quote [email protected]
CONFLAT FLANGE CF63 standard (=4.5 inch outer, 2.5 inch inner diameter)
Clear aperture size for the Si window: 60 mm
Thickness of the Si window: 4 mm
Orientation: single crystal,
Flatness: 3 waves at 633 nm
Housing or flange type/material: SS 304
Max Temperature: 150 C deg
Min Temperature: 15 C deg
Wavelength transmitted: transmission of femtosecond-generated THz radiation
into UHV chamber: Frequency 0.5-5 THz (60-600 microns)
Window material: Silicon optical grade
Coating: none
Silicon windows, lenses and prisms for infrared, THz and other applications
[email protected]
https://www.youtube.com/watch?v=RvjNMZIXOyQ
Gallium Arsenide Crystal GaAs for THz transmission experiments
https://www.youtube.com/watch?v=usM9n00sRhw
Photoconductive Antenna for Terahertz Waves
https://www.youtube.com/watch?v=LPzK5S1ctao
THz products:
THz Spectrometer kit with Antenna
THz transmission setup
THz time domain spectrometer Pacifica fs1060pca
THz time domain spectrometer Pacifica fs780pca
THz detectors: Golay cell and LiTaO3 piroelectric detectors
PCA - Photoconductive Antenna as THz photomixer
Pacifica THz Time Domain Spectrometer - Trestles Pacifica
Holographic Fourier Transform Spectrometer for THz Region
Wedge TiSapphire Multipass Amplifier System - THz pulses generation
Terahertz Spectroscopic Radar Mobile System for Detection of Concealed
Explosives
Band pass filters with center wavelengths from 30 THz into GHz range
Long pass filters with standard rejection edge wavelengths from 60 THz into
GHz range
Generation of THz radiation using lithium niobate
Terahertz crystals (THz): ZnTe, GaP, LiNbO3 - Wedge ZnTe
Generation of wide terahertz radiation using bulk and quasi-phase-matched
GaAs crystal - request a quote for GaAs crystal
Author(s): Baolong Yu, Naibing Ma, Min-Yi Shih, Alexander V. Parfenov,
Physical Optics Corp. (United States)
Physical Optics Corporation (POC) studied intense terahertz (THz)
generation through optical rectification in bulk low-temperature growth
GaAs (LG-GaAs) and quasi-phase-matched orientation pattern GaAs (OP-GaAs).
POC performed simulations based on one-dimensional coupled propagation
equations of THz and optical fields and conducted experimental tests. The
results show that a LG-GaAs crystal with 0.5mm-thick under the excitation
of a compact all-fiber femtosecond laser (76 MHz, 100 fs, 100 mW, 800 nm)
can generate wide frequency range from 0.1 to 8.2 THz. The enhanced
conversion efficiency was found for OP-GaAs crystal that can generate an
average THz power of several milliwatts. Both theoretical and experimental
results show that average THz output power is proportional to the energy
fluence of the excitation source rather than the laser power for
ultra-short pulse source. These achievements provide an effective approach
to increase THz output power.
//www.dmphotonics.com/GaAs_crystal/GaAs%20crystal.htm
Silicon viewports for Terahertz (THz) radiation
//www.dmphotonics.com/Viewport/Silicon%20viewports%20for%20Terahertz%20(THz)%20radiation.htm
Vacuum viewport Fused silica, Quartz, Sapphire, MgF2, BaF2, ZnSe
//www.dmphotonics.com/Zinc-selenide-ZnSe-vacuum-viewport/vacuum-viewports-ZnSe.htm
MgO:LiNbO3 prism for THz generation with Ti:Sapphire laser
[email protected]
https://www.youtube.com/watch?v=7piP5ktsJOM
Crystals for High Energy THz Pulse Generation by Tilted Pulse Front
Excitation [email protected]
https://www.youtube.com/watch?v=nIUDi1xsokw
Terahertz products from Del Mar Photonics
Terahertz crystals - ZnTe - GaP
//www.delmarphotonics.com/Terahertz/Terahertz-crystals-ZnTe-GaP.htm
Del Mar Photonics supply variety of crystals for THz generation, including
ZnTe, GaP, GaSe, GaAs, LiNbO3 and others
//femtosecondsystems.com/ZnTe-crystal/ZnTe-crystal.htm
Del Mar Photonics supply variety of crystals for THz generation, including
ZnTe, GaP, GaSe, GaAs, LiNbO3 and others
//dmphotonics.com/ZnTe-crystal/ZnTe-crystal.htm
Terahertz crystals from Del Mar Photonics [email protected]
//www.youtube.com/watch?v=HqYNoGtE6ME
ZnTe crystal, 10x10x0.5 mm, 110-cut
[CR-ZnTe-10-10-0.5]
//greyhawkoptics.com/product_info.php?cPath=32_34&products_id=94&osCsid=fed44d01d9246b416e19e4e695504fed
Size 10x10 mm
Thickness 0.5 mm
Orientation 110-cut
Surface quality 40/20 S/D
Parallelism < 2 arc min
GaP crystal, 110-cut, 10x10x0.1 mm
[CR-GaP-10-10-0.1]
//greyhawkoptics.com/product_info.php?cPath=32_94&products_id=400&osCsid=e1c097ce6a44a8b789515a529af146bc
Size 10x10x0.1 mm
Orientation 110-cut
Polish 2 faces
Coating no
GaP crystals and assemblies
//greyhawkoptics.com/index.php?cPath=32_94&osCsid=e520037cd19fdfb7647befe88de8d710
Model
Product Name+
CR-GaP-10-10-0.3 GaP crystal, 001-cut, 10x10x0.3 mm
CR-GaP-10-10-0.5 GaP crystal, 100-cut, 10x10x0.5 mm
CR-GaP-10-10-0.05 GaP crystal, 110-cut, 10x10x0.05 mm
CR-GaP-10-10-0.05-2 GaP crystal, 110-cut, 10x10x0.05 mm mounted
CR-GaP-10-10-0.1 GaP crystal, 110-cut, 10x10x0.1 mm
CR-GaP-10-10-0.1-H GaP crystal, 110-cut, 10x10x0.1 mm in 1 inch holder
CR-GaP-10-10-0.1-2 GaP crystal, 110-cut, 10x10x0.1 mm mounted
CR-GaP-10-10-0.2 GaP crystal, 110-cut, 10x10x0.2 mm
CR-GaP-10-10-0.2-3 GaP crystal, 110-cut, 10x10x0.2 mm mounted
CR-GaP-10-10-0.3 GaP crystal, 110-cut, 10x10x0.3 mm
CR-GaP-10-10-0.5 GaP crystal, 110-cut, 10x10x0.5 mm
CR-GaP-10-10-1 GaP crystal, 110-cut, 10x10x1 mm
CR-GaP-10-10-1-H GaP crystal, 110-cut, 10x10x1 mm in 1 inch holder
CR-GaP-10-10-5 GaP crystal, 110-cut, 10x10x5 mm
CR-GaP-5-5-0.1 GaP crystal, 110-cut, 5x5x0.1 mm
CR-GaP-5-5-0.15-1 GaP crystal, 110-cut, 5x5x0.150 mm mounted
CR-GaP-5-5-0.3 GaP crystal, 110-cut, 5x5x0.3 mm
CR-GaP-5-5-0.5-1 GaP crystal, 110-cut, 5x5x0.5 mm mounted
non-linear single crystal for THz generation
Nonlinear Optical Techniques for Terahertz Pulse Generation and Detection -
Optical Rectification and Electrooptic Sampling
Ingrid Wilke and Suranjana Sengupta
Rensselaer Polytechnic Institute
//homepages.rpi.edu/~wilkei/wilke_THz_book_chapter.pdf
2.1 Introduction
The generation and detection of short pulses of terahertz (THz) frequency
electromagnetic
radiation are attracting great interest. Research activities in this area
are driven
by applications of THz-frequency radiation pulses in time-domain THz
spectroscopy
and time-domain THz imaging.1,2 Recent examples of major scientific
advancements in
THz wave research include the detection of single-base pair differences in
femtomolar
concentrations of DNA,3 the observation of the temporal evolution of
exciton formation
in semiconductors4 and understanding of carrier dynamics in high-temperature
superconductors.5 Real-world applications of time-domain THz spectroscopy
and
imaging address important problems such as nondestructive testing,6 as well
as new
approaches to medical diagnostics and rapid screening in drug development.7
One of the research directions in THz science and technology is to increase
the
bandwidth of short THz-frequency radiation pulses. Nonlinear optical
phenomena
such as optical rectification and the linear electrooptic effect (Pockels’
effect) are
attractive options for broadband generation and detection of THz radiation.
This chapter provides an overview of the generation and detection of freely
propagating THz pulses based on nonlinear optical techniques. In Section
2.1.1 of
this chapter, the principles of time-domain THz spectroscopy and
time-domain THz
imaging using nonlinear optical techniques for THz pulse generation and
detection
are briefly discussed. Section 2.2 describes the principles of generation
and detection
of THz-frequency radiation by optical rectification of femtosecond laser
pulses
and femtosecond electrooptic sampling. THz radiation emission has been
reported
from a variety of nonlinear materials such as lithium niobate (LiNbO3),8,9
lithium
tantalate (LiTaO3),9,10 zinc telluride (ZnTe),11,12 indium phosphide
(InP),13 gallium
arsenide (GaAs),14 gallium selenide (GaSe),15,16 cadmium telluride
(CdTe),17 cadmium
zinc telluride (CdZnTe),18 DAST,10,19 and metals.20,21 Section 2.3
summarizes
the performance of THz emitters based on these materials in terms of
bandwidth
and signal strength of the emitted THz radiation. Materials for the
detection of THz
radiation by femtosecond electrooptic sampling are the subjects of Section
2.4. In
Section 2.5, an application of electrooptic detection of THz-frequency
electromagnetic
transients is discussed.
2.1.1 Terahertz Time-Domain Spectroscopy: An Overview
The basic ideas of time-domain THz spectroscopy and a time-domain THz
imaging
system is illustrated in Figure 2.1. A subpicosecond pulse of THz-frequency
electromagnetic
radiation passes through a sample placed in the THz beam and its time
profile is compared to a reference pulse. The latter can be a freely
propagating pulse
or a pulse propagating through a medium with known properties. The frequency
spectra of the transmitted and reference THz radiation pulses are obtained
by Fourier
transformation. Analysis of the frequency spectra yields spectroscopic
information
on the material under investigation. In the case of time-domain THz imaging
the
THz radiation focal spot is scanned across the sample and a THz image of
the object
under investigation is obtained.
The time-domain THz spectroscopy system shown in Figure 2.1 is powered by a
laser, which emits a train of femtosecond duration pulses at near-infrared
frequencies.
The initial laser beam after passing through a beam splitter is split into
two parts:
the pump and the probe beam. The pump beam after being modulated by an
optical
chopper is focused on the THz emitter (a second-order nonlinear optical
medium),
which releases a subpicosecond pulse of THz radiation in response to the
incident
femtosecond near infrared laser pulse. The generated THz radiation is
focused onto a
detector using two off-axis parabolic mirrors. The detector is an
electrooptic crystal.
The probe beam gates the detector, whose response is proportional to the
amplitude
and sign of the electric field of the THz pulse. By changing the time delay
between
the pump and the probe beams by means of an optical delay stage, the entire
time
profile of the THz transient can be traced.
Electrooptic detection of THz transients is possible when the THz radiation
pulse and the probe beams coincide in a copropagating geometry inside the
electrooptic
crystal. A pellicle beam splitter is put in the THz beam line for this
purpose.
As the THz pulse and probe beam copropagate through the electrooptic
crystal,
a phase modulation is induced on the probe beam which depends on the
electric
field of the THz radiation. The phase modulation of the probe beam is
analyzed by
a quarter wave (l/4) plate and the beam is then split into two beams of
orthogonal
polarizations by a Wollaston prism. At this point, the phase modulation of
the probe
beam is converted to an intensity modulation of the two orthogonal
polarizations of
the probe beam, which are then steered into a pair of photodiodes. A
lock-in amplifier
subsequently detects the difference in probe laser light intensities
measured by
the photodiodes.
Next, the key aspects of the nonlinear optical processes involved in the
generation
and detection of short pulses of THz-frequency radiation are discussed in
depth.
2.2 Optic al Rectific ation and Li near
Electrooptic Eff ect
Optical rectification and the linear electrooptic effect (Pockels’ effect)
are nonlinear
optical techniques for the generation and detection of freely propagating
subpicosecond
THz-frequency radiation pulses.
Generally, optical rectification refers to the development of a DC or
lowfrequency
polarization when intense laser beams propagate through a crystal. The
linear electrooptic effect describes a change of polarization of a crystal
from an
applied electric field. Optical rectification and the linear electrooptic
effect occur
only in crystals that are not centrosymmetric. However, optical
rectification of laser
light by centrosymmetric crystals is possible if the symmetry is broken by
a strong
electric field. Furthermore, generation and detection of THz-radiation
pulses by optical
rectification and the Pockels’ effect require that the crystals are
sufficiently transparent
at THz and optical frequencies.
Freely propagating subpicosecond THz-radiation pulses are generated by
optical
rectification of femtosecond (fs) near infrared laser pulses in crystals
with appropriate
nonlinear optical properties for this process. The detection of freely
propagating
THz-radiation pulses is performed by measuring the phase modulation of an
fs near
infrared laser pulse propagating through an electrooptic crystal
simultaneously with
a THz-radiation pulse. The electric field of the THz radiation induces a
phase modulation
of the fs laser pulse through the linear electrooptic effect.
In the following section, the theory of optical rectification and the
linear electrooptic
effect is discussed. The discussion of theory is limited to material we
consider
useful for the reader to get a general idea of the underlying physics of
THz pulse
generation and detection by nonlinear optical techniques and to equations
that are
relevant to the implementation of the techniques in the laboratory. Our
discussion
mainly follows the original work by pioneers in the field.
First, DC optical rectification of 694 nm continuous-wave laser radiation
in potassium dihydrogen phosphate and potassium dideuterium phosphate was
demonstrated experimentally by Bass et al. in 1962.22 After that,
monochromatic THzradiation
generation at 3 THz by low-difference frequency mixing of near-infrared
(nir) laser radiation (lnir = 1.059–1.073 Nm) in quartz was achieved in
1965 by Zernike
and Berman.23 Yang et al. demonstrated generation of broadband (0.06–0.36
THz)
freely propagating THz-radiation pulses by optical rectification of
picosecond Nd:
glass laser pulses in LiNbO3 in 1971.8 Eventually, Hu et al. produced
free-space
THz-frequency radiation with a bandwidth of 1 THz by optical rectification
of femtosecond
CPM dye laser pulses in LiNbO3 in 1990.10
Nonlinear Optical Techniques for Terahertz Pulse Generation and Detection 45
In 1893, Friedrich Pockels discovered the linear electrooptic effect.24
Subsequently,
the phase modulation of optical laser light at microwave frequencies using
the linear electrooptic effect was demonstrated in 1962 by Harris et al.25
Then, Valdmanis
and coworkers built the first electrooptic sampling system with picosecond
resolution for the measurements of ultrafast electrical transients in
1982.26 Finally,
electrooptic sampling of freely propagating THz-radiation pulses was
demonstrated
in 1995 by Wu and Zhang27 and in 1996 by Jepsen et al.28 and Nahata et al.29
An excellent description of laser light modulation based on the linear
electrooptic
effect is given by Yariv.30 Rigorous quantum mechanical calculations of
optical
rectification were carried out by Armstrong et al.31 Previous reviews of
nonlinear
generation and detection of sub-picosecond THz-radiation pulses were
published by
Bonvalent and Joffre,32 Shen et al.,33 and Jiang and Zhang.34
The discussions of optical rectification and the Pockels’ effect begin by
considering
scalar relationships of polarization P, electric susceptibility, and
electric field
--------------------------
Terahertz plasmonic composites
Syrus C. Nemat-Nasser,1,* Alireza V. Amirkhizi,1 Willie J. Padilla,2,†
Dimitri N. Basov,2 Sia Nemat-Nasser,1,‡
Derek Bruzewicz,3 and George Whitesides3
1 Center of Excellence for Advanced Materials, Department of Mechanical and
Aerospace Engineering, University of California,
San Diego, Mail code: 0416, 9500 Gilman Drive, La Jolla, California
92093-0416, USA 2
Department of Physics, University of California, San Diego, Mail code:
0416, 9500 Gilman Drive, La Jolla,
California 92093-0416, USA 3
Department of Chemistry and Chemical Biology, Harvard University,
Cambridge, Massachusetts 02138, USA
Received 27 October 2006; revised manuscript received 20 December 2006;
published 27 March 2007
The dielectric response of a polymer matrix composite can be substantially
modified and tuned within a
broad frequency band by integrating within the material an artificial
plasmon medium composed of periodically
distributed, very thin, electrically conducting wires. In the microwave
regime, such plasmon/polymer
composites have been studied analytically, computationally, and
experimentally. This work reports the design,
fabrication, and characterization of similar composites for operation at
terahertz frequencies. Such composites
require significant reduction in the thickness and spacing of the wires. We
used numerical modeling to design
artificial effective plasmonic media with turn-on frequencies in the
terahertz range. Prototype samples were
produced by lithographically embedding very thin gold strips into a PDMS
polydimethylsiloxane matrix.
These samples were characterized with a Fourier-transform infrared
interferometer using the frequencydependent
transmission and Kramers-Kronig relations to determine the electromagnetic
properties. We report
the characterization results for a sample, demonstrating excellent
agreement between theory, computer design,
and experiment. To our knowledge this is the first demonstration of the
possibility of creating composites with
tuned dielectric response at terahertz frequencies.
https://gmwgroup.harvard.edu/pubs/pdf/986.pdf
delmarphotonics
commented
on 13 Jan 2016
Progress on femtosecond laser-based system-materials: three-dimensional
monolithic electrostatic micro-actuator for optomechanics
Tao Yang, Yves Bellouard
15 February 2016 • 9:50 - 10:10 AM | Part of SPIE LASE
Eternal 5D data storage by ultrafast laser writing in glass
Peter G. Kazansky, Martynas Beresna, Jingyu Zhang, Rokas Drevinskas, Aabid
Patel, Aušra Cerkauskaite
17 February 2016 • 4:20 - 4:50 PM | Part of SPIE LASE
Femtosecond modulations based on periodic patterns of excited free-carriers
in semiconductors
Yonatan Sivan, Georgios Ctistis, Emre Yüce, Allard P. Mosk
17 February 2016 • 4:45 - 5:00 PM | Part of SPIE OPTO
Laser nanofabrication for advanced micro-cavities
Hong-Bo Sun, Huai-Liang Xu, Xue-Peng Zhan, Qi-Dai Chen
15 February 2016 • 10:50 - 11:15 AM | Part of SPIE LASE
SPIE EXHIBITOR
Thorlabs Inc.
Newton, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8609
Probing temporal and spatial properties of electronic excitation in
dielectrics after interaction with temporally shaped femtosecond laser
pulses: experiments and simulations
Thomas Winkler, Lasse Haahr-Lillevang, Cristian Sarpe-Tudoran, Nadine
Götte, Bastian Zielinski, Nikolai Jelzow, Arne Senftleben, Thomas Baumert
16 February 2016 • 4:10 - 4:30 PM | Part of SPIE LASE
Manufacturing of functional micro/nano structures by fs-laser
microfabrication
Cleber R. Mendonça, Nathália B. Tomazio, Franciele Henrique, Adriano J. G.
Otuka, Juliana M. P. Almeida, Carla R. Fontana
16 February 2016 • 4:30 - 4:50 PM | Part of SPIE LASE
SPIE EXHIBITOR
Thorlabs Inc.
Newton, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 901 , 1701
Non infrared femto lasers: Status and prospects
Max Kahmann
15 February 2016 • 11:40 AM - 12:00 PM | Part of SPIE LASE
High-temperature monitoring of an oxy-fuel fluidized bed combustor using
femtosecond infrared laser-written fiber Bragg gratings
Robert B. Walker, Huimin Ding, David Coulas, Dan Grobnic, Ping Lu, Stephen
J. Mihailov, Marc A. Duchesne, Robin W. Hughes, David J. McCalden, Ryan
Burchat
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Femtosecond laser written microresonators and nanophotonic circuitry
Robert A. Norwood, Khanh Q. Kieu, Gregory A. Cohoon, Babak Amirsolaimani,
Soha Namnabat, Jeff Pyun
18 February 2016 • 3:30 - 4:00 PM | Part of SPIE LASE
Femtosecond laser fabricated multimode fiber sensors interrogated by
optical-carrier-based microwave interferometry technique for distributed
strain sensing
Liwei Hua, Yang Song, Jie Huang, Xiao Hai
18 February 2016 • 2:10 - 2:30 PM | Part of SPIE OPTO
Ablation of silicon with bursts of femtosecond laser pulses
Caterina Gaudiuso, Helena Kämmer, Felix Dreisow, Antonio Ancona, Andreas
Tünnermann, Stefan Nolte
16 February 2016 • 8:50 - 9:10 AM | Part of SPIE LASE
Femtosecond fiber laser additive manufacturing of tungsten
Jian Liu, Pei Yang, Baolong Zheng, Huan Huang, Shuang Bai, Lih-Mei Yang
18 February 2016 • 10:40 - 11:10 AM | Part of SPIE LASE
Femtosecond laser-induced two-photon polymerization of whispering gallery
mode microresonators
Nathália B. Tomazio, Xavier Roselló, Adriano J. G. Otuka, Gustavo F. B.
Almeida, Antonio D. Cremades, Miguel V. Andrés, Cleber R. Mendonça
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Waveguide optical amplifiers and lasers produced by fs-laser induced ion
migration in phosphate glass
Pedro Moreno Zarate, Jesús del Hoyo Muñoz, Juan Antonio Vallés, Miguel
Angel Rebolledo, Jan Siegel, Javier Solis
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
PolarOnyx Laser Inc.
San Jose, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 510
Femtosecond laser fabricated integrated chip for manipulation of single
cells
Anusha Keloth, Melanie Jimenez, H. Bridle, Lynn Paterson, Gerard H. Markx,
Ajoy K. Kar
14 February 2016 • 2:10 - 2:30 PM | Part of SPIE BiOS
Waveguides and nonlinear refractive index in chalcogenide glass containing
Ag2S nanocrystals
Juliana M. P. Almeida, Emerson C. Barbano, Lino Misoguti, Craig B. Arnold,
Cleber R. Mendonça
16 February 2016 • 11:20 - 11:40 AM | Part of SPIE LASE
Investigation of the micro-mechanical properties of femtosecond
laser-induced phases in amorphous silica matrix
Christos E. Athanasiou, Yves Bellouard
16 February 2016 • 5:30 - 5:50 PM | Part of SPIE LASE
Femtosecond laser induced local compositional changes in glass for
photonics applications
Javier Solis
16 February 2016 • 8:30 - 9:00 AM | Part of SPIE LASE
Pulsewidth dependence of laser-induced periodic surface structure formed on
yttria-stabilized zirconia polycrystal
Masayuki Kakehata, Hidehiko Yashiro, Ayako Oyane, Atsuo Ito, Kenji Torizuka
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
High power and high energy femtosecond lasers based on hybrid architectures
Clemens Hönninger, Julien Pouysegur, Birgit Weichelt, Martin Delaigue,
Guillaume Machinet, Franck Morin, Florent Guichard, Yoann Zaouter, Marc
Hanna, Frédéric Druon, Patrick Georges, Eric Mottay
15 February 2016 • 11:20 - 11:40 AM | Part of SPIE LASE
All optical fiber polarization controlling devices fabricated by
femtosecond laser irradiation
Lei Yuan, Baokai Cheng, Jie Liu, Jie Huang, Hai Xiao
15 February 2016 • 8:50 - 9:10 AM | Part of SPIE LASE
Femtosecond electrons probing ultrafast phenomena in nanostructures by
diffraction and imaging
Melanie Müller, Lutz Waldecker, Roman Bertoni, Thomas Vasileiadis, Vasily
Kravtsov, Markus B. Raschke, Alexander Paarmann, Ralph Ernstorfer
18 February 2016 • 8:00 - 8:30 AM | Part of SPIE OPTO
Picosecond and fs lasers for industrial material processing
Roland M. Mayerhofer, Jürgen Serbin, Fred-Walter Deeg
15 February 2016 • 5:40 - 6:00 PM | Part of SPIE LASE
COURSE AT CONFERENCE
Micromachining with Femtosecond Lasers (SC743)
Instructor(s): Nolte, Stefan, Friedrich-Schiller-Univ. Jena
Level: Intermediate • 0.35 CEU • Length: 4.00 hours
Member Price: 300.00 | Non-Member Price: 355.00
14 February 2016 • 8:30 AM | Part of SPIE Photonics West
Modulation of Channelrhodopsin-2 mediated currents by femtosecond pulse
shaping
Kush Paul, Eugene D. Ark, Haohua Tu, Youbo Zhao, Yuan-zhi Liu, Javier I.
Suarez, Parijat Sengupta, Stephen A. Boppart M.D.
13 February 2016 • 10:40 - 11:10 AM | Part of SPIE BiOS
SPIE EXHIBITOR
JENOPTIK
Jupiter, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8730
Femtosecond laser irradiation of dielectric materials containing randomly
arranged nano-defects
Anton Rudenko, Jean-Philippe Colombier, Tatiana E. Itina
17 February 2016 • 5:10 - 5:30 PM | Part of SPIE LASE
Effects of laser parameters on size and dispersion of gold nanoparticle
colloids formed by laser ablation in water
Alexandr A. Antipov, Sergey M. Arakelyan, Yury V. Ryabchikov, Ahmed
Al-Kattan, Andrei V. Kabashin, Stella V. Kutrovskaya, Alexey O. Kucherik,
Tatiana E. Itina
15 February 2016 • 11:30 - 11:50 AM | Part of SPIE LASE
Novel all-polarization-maintaining femtosecond Yb-fiber laser for in-vivo
nonlinear microscopy in zebrafish larvae
Aart Verhoef, Lingxiao Zhu, Marco Andreana, Martin Distel, Stine Møller
Israelsen, Karsten Rottwitt, Wolfgang Kautek, Andrius Baltuska, Alma del
Carmen Fernandez Gonzalez, Wolfgang Drexler, Angelika Unterhuber
18 February 2016 • 4:20 - 4:40 PM | Part of SPIE LASE
SPIE EXHIBITOR
LASEA
Angleur, Belgium
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4564
Advanced femtosecond lasers enable new developments in non-linear imaging
and functional studies in neuroscience, biology and medical applications
Marco Arrigoni, Darryl McCoy
15 February 2016 • 4:35 - 4:50 PM | Part of SPIE BiOS
Fabrication of waveguides in L-threonine crystals by femtosecond lasers
Gustavo F. B. Almeida, José J. Rodrigues, Jr., Cleber R. Mendonça
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Femtosecond laser subsurface scleral treatment in cadaver human sclera and
evaluation using two-photon and confocal microscopy
Hui Sun, Zhongwei Fan, Ying Yan, Fuqiang Lian, Ron Kurtz, Tibor Juhasz
15 February 2016 • 1:30 - 1:50 PM | Part of SPIE BiOS
Femtosecond laser pulse induced rapid melting and resolidification of
aluminum silicon powder for additive manufacturing
Tobias Ullsperger, Gabor Matthäus, Markus Rettenmayr, Stefan Risse, Andreas
Tünnermann, Stefan Nolte
18 February 2016 • 11:10 - 11:30 AM | Part of SPIE LASE
SPIE EXHIBITOR
Amplitude Technologies
Evry, France
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1332
SPIE EXHIBITOR
Class 5 Photonics
Hamburg, Germany
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4629
Comparison of two photosensitizers in photodynamic therapy using light
pulses in femtosecond regime: an animal study
Clóvis Grecco, Sebastião Pratavieira, Vanderlei Bagnato, Cristina Kurachi
15 February 2016 • 5:30 - 7:30 PM | Part of SPIE BiOS
Femtosecond laser direct-write of lab-in-fiber sensors through
polymer-coated optical fiber
Kevin A. J. Joseph, Moez Haque, Stewart J. Aitchison, Peter R. Herman
16 February 2016 • 4:50 - 5:10 PM | Part of SPIE OPTO
Nanofabrication of metals by interfering femtosecond laser processing and
their applications
Yoshiki Nakata, Noriaki Miyanaga
18 February 2016 • 8:00 - 8:30 AM | Part of SPIE LASE
A cantilever based optical fiber acoustic sensor fabricated by femtosecond
laser micromachining
Jie Liu, Lei Yuan, Jie Huang, Hai Xiao
15 February 2016 • 2:30 - 2:50 PM | Part of SPIE LASE
Femtosecond laser fabricated electrofluidic devices in glass for 3D
manipulation of biological samples
Jian Xu, Katsumi Midorikawa, Koji Sugioka
15 February 2016 • 1:50 - 2:10 PM | Part of SPIE LASE
Femtosecond laser waveguide writing in zinc magnesium phosphate glasses
Nikolay Skovorodnikov, Javier Hernandez Rueda, Vladimir A. Semenov, Denise
M. Krol
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
delmarphotonics
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Packaging and micro-structuring for enabling multi-functional
fiber-cladding photonics and lab-in-fiber
Moez Haque, Stephen Ho, Erden Ertorer, Kevin A. J. Joseph, Jianzhao Li,
Peter R. Herman
14 February 2016 • 3:00 - 3:20 PM | Part of SPIE OPTO
Fabrication of waveguide spatial light modulators via femtosecond laser
micromachining
Nickolaos Savidis, Bianca Datta, Sundeep Jolly, V. Michael Bove, Jr.
15 February 2016 • 2:50 - 3:10 PM | Part of SPIE OPTO
SPIE EXHIBITOR
Altechna
Vilnius, Lithuania
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 5262
microPREP: A new laser tool for high-throughput sample preparation
Tino Petsch
16 February 2016 • 1:30 - 2:00 PM | Part of SPIE LASE
Sub-diffraction limit nanostructures induced by femtosecond laser direct
writing
Xiaolong He, Woongsik Nam, Xianfan Xu
17 February 2016 • 2:40 - 3:00 PM | Part of SPIE LASE
Ultrashort pulse written volume-Bragg-gratings in fused silica for external
stabilization of diode lasers with ultra-low spectral-drift
Daniel Richter, Christian Voigtländer, Jens U. Thomas, Ria G. Krämer, Hagen
Zimer, Andreas Tünnermann, Stefan Nolte
17 February 2016 • 9:20 - 9:40 AM | Part of SPIE LASE
Multi-photon imaging with high peak power VECSELs
Shamil Mirkhanov, Adrian H. Quarterman, Conor J. C. P. Smyth, Samuel Swift,
Keith G. Wilcox
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Pulse front adaptive optics in multiphoton microscopy
Patrick S. Salter, Bangshan Sun, Martin J. Booth
13 February 2016 • 11:40 AM - 12:00 PM | Part of SPIE BiOS
SPIE EXHIBITOR
Radiantis
Polígon Camí Ral Gavà Barcelona, Spain
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4423
Pulsed interferometric phase measurement for coherent beam combining
Jeremy Le Dortz, Marie Antier, Jérôme Bourderionnet, Christian Larat, Eric
Lallier, Louis Daniault, Severine Bellanger, Christophe Simon-Boisson,
Jean-Christophe F. Chanteloup, Arnaud Brignon
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Simultaneous spatial frequency modulation imaging and micromachining with a
femtosecond laser
Michael D. Young, Erica K. Block, David G. Winters, Jeffrey J. Field, Keith
Wernsing, Randy A. Bartels, Jeff A. Squier
16 February 2016 • 3:50 - 4:20 PM | Part of SPIE OPTO
Long-range energy transfer mechanism between two coupled plasmonic
nanoantennas
Martin Aeschlimann, Tobias Brixner, Benjamin Frisch, Bert Hecht, Bernhard
Huber, Matthias Hensen, Christian Kramer, Enno Krauss, Walter Pfeiffer,
Martin Piecuch, Christian Strüber, Philip Thielen
17 February 2016 • 8:30 - 9:00 AM | Part of SPIE OPTO
Investigation of the nonlinear absorption spectrum of all-trans retinoic
acid by using the steady and transient two-photon absorption-induced
spectroscopy
Marcelo G. Vivas, Jonathas De Paula Siqueira, Daniel Silva, Leonardo De
Boni, Cleber R. Mendonça
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
SPIE EXHIBITOR
Kapteyn-Murnane Labs., Inc.
Boulder, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 2301
Ultrashort-pulse laser processing of transparent materials: Insight from
numerical and semi-analytical models
Nadezhda M. Bulgakova, Vladimir P. Zhukov, Yuri P. Meshcheryakov, Tomáš
Mocek
16 February 2016 • 1:40 - 2:10 PM | Part of SPIE LASE
SPIE EXHIBITOR
Radiantis
Gavà Barcelona, Spain
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8838
Broadband electrical control of second-harmonic generation in bilayer MoS2
by inversion symmetry breaking
Julian Klein, Jakob Wierzbowski, Armin Regler, Jonathan Becker, Florian
Heimbach, Michael Kaniber, Kai Müller, Jonathan J. Finley
16 February 2016 • 11:00 - 11:20 AM | Part of SPIE LASE
Broadband frequency-chirped terahertz-wave signal generation using
periodically-poled lithium niobate for frequency-modulated continuous-wave
radar application
Junichi Hamazaki, Yoh Ogawa, Norihiko Sekine, Akifumi Kasamatsu, Atsushi
Kannno, Naokatsu Yamamoto, Iwao Hosako
17 February 2016 • 5:30 - 5:50 PM | Part of SPIE OPTO
SPIE EXHIBITOR
Kapteyn-Murnane Labs., Inc.
Boulder, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8648
Formation of upconversion nanoparticles of Ce:YAG, Eu:KYW and
18%Yb:1%Er:NaYF4 by ultra-short pulse laser ablation in water
Laura Gemini, Marie Caroline Hernandez, Rainer Kling
13 February 2016 • 9:30 - 10:00 AM | Part of SPIE BiOS
SPIE EXHIBITOR
AMPHOS GmbH
West Springfield, Default
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 811
Nonperturbative monitoring of dissipative Kerr solitons in microresonators
Michael L. Gorodetsky, Maxim Karpov, Hairun Guo, Erwan Lucas, G. Lihachev,
Tobias J. Kippenberg
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Small structures, big impact! High-performance diffraction gratings for
laser applications
Frank Fuchs
18 February 2016 • 8:30 - 8:50 AM | Part of SPIE LASE
Influence of nanorod absorption spectrum width on superluminality effect
for laser pulse propagation
Vyacheslav A. Trofimov, Tatiana M. Lysak
18 February 2016 • 5:20 - 5:40 PM | Part of SPIE OPTO
Ultrafast switching in nonlinear dielectric metasurfaces with magnetic
resonances
Polina Vabishchevich, Maxim R. Shcherbakov, Alexander S. Shorokhov, Katie
E. Chong, Duk-Yong Choi, Isabelle Staude, Andrey E. Miroshnichenko,
Dragomir N. Neshev, Andrey A. Fedyanin, Yuri S. Kivshar
15 February 2016 • 4:50 - 5:10 PM | Part of SPIE OPTO
Multimodal imaging platform to study cancer progression in zebrafish
Angelika Unterhuber, Marco Andreana, Aart J. Verhoef, Martin Distel, Alma
del Carmen Fernandez Gonzalez, René M. Werkmeister, Wolfgang Drexler
16 February 2016 • 11:15 - 11:30 AM | Part of SPIE BiOS
Dash line glass- and sapphire-cutting with high power USP laser
John Lopez
15 February 2016 • 1:50 - 2:10 PM | Part of SPIE LASE
Laser filamentation of glass and other transparent, brittle materials:
Fundamentals and applications
Roland M. Mayerhofer, Abbas S. Hosseini
16 February 2016 • 5:10 - 5:30 PM | Part of SPIE LASE
Strong sub-terahertz surface waves generated by relativistic laser pulses
Shigeki Tokita, Shunsuke Inoue, Ryo Yasuhara, Kensuke Teramoto, Takeshi
Nagashima, Masaki Hashida, Shuji Sakabe
16 February 2016 • 2:30 - 3:00 PM | Part of SPIE OPTO
Observation of integer pseudospin conical diffraction in photonic Lieb
lattices
Falko Diebel, Daniel Leykam, Sebastian Kroesen, Cornelia Denz, Anton S.
Desyatnikov
16 February 2016 • 4:20 - 4:40 PM | Part of SPIE OPTO
SPIE EXHIBITOR
Biophotonic Solutions, Inc.
East Lansing, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 736
Ultrafast spin transport and spin transfer in ferromagnet-metal
heterostructures and metal-organic adsorbates
Andrea Eschenlohr, Jens Wieczorek, Jinghao Chen, Shunhao Xiao, Boris
Weidtmann, Malte Roesner, Nicolas Bergeard, Alexander Tarasevitch, Tim O.
Wehling, Uwe Bovensiepen
17 February 2016 • 4:15 - 4:45 PM | Part of SPIE OPTO
Switchable dual-pulse-shape mode-locked figure-eight all-PM-fibre master
oscillator with 0.5 W-level average output
Sergey M. Kobtsev, Aleksey V. Ivanenko, Yurii Fedotov, Sergey V. Smirnov
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
Biophotonic Solutions, Inc.
East Lansing, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8912
Evaluation of local MSC therapeutic impact in osteogenesis imperfecta using
deep tissue single cell ablation with a multicolor femtosecond fiber laser
source
Kayvan F. Tehrani, Charles P. Lin, Luke J. Mortensen
15 February 2016 • 1:50 - 2:10 PM | Part of SPIE BiOS
Laser induced permanent and peculiar shape transformation of embedded
metallic nanoparticles in glass
Amin Abdolvand, William A. Gillespie, Mateusz A. Tyrk, Svetlana A.
Zolotovskaya
16 February 2016 • 9:40 - 10:00 AM | Part of SPIE LASE
Single-pulse coherent anti-Stokes Raman spectroscopy via fiber Bragg grating
Seung Ryeol Oh, Joo Hyun Park, Won Sik Kwon, Jin Hwan Kim, Kyung-Soo Kim,
Jae Yong Lee, Soohyun Kim
14 February 2016 • 2:50 - 3:10 PM | Part of SPIE LASE
SPIE EXHIBITOR
EKSPLA
Vilnius, Lithuania
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8424
SPIE EXHIBITOR
NuPhoton Technologies, Inc.
Murrieta, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4661
Advances in ultrafast mid-IR fiber lasers
Darren D. Hudson
16 February 2016 • 8:30 - 9:00 AM | Part of SPIE LASE
Use of optical speckle patterns for compressive sensing of RF signals in
the GHz band
George C. Valley, George A. Sefler, Thomas J. Shaw
15 February 2016 • 3:50 - 4:10 PM | Part of SPIE OPTO
SPIE EXHIBITOR
EKSPLA
Vilnius, Lithuania
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1533
Ultrafast laser direct micro-/nano-fabrication: Towards 4D optical printing
Mangirdas Malinauskas, Sima Rekštyte, Albertas Žukauskas, Simas Butkus,
Saulius Juodkazis
16 February 2016 • 10:30 - 11:00 AM | Part of SPIE LASE
An investigation of semiconductor nanoparticles for application to
all-optical switching
Brandon Born, Simon Geoffroy-Gagnon, Jonathan F. Holzman
15 February 2016 • 5:15 - 5:30 PM | Part of SPIE OPTO
SPIE EXHIBITOR
FEMTOprint SA
Muzzano Ticino, Switzerland
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4407
Selective seminal optics and photonics processes
Robert R. Alfano
16 February 2016 • 8:05 - 8:35 AM | Part of SPIE OPTO
Ultrafast all-optical switching with photonic nanojets and semiconductor
nanoparticles
Brandon Born, Jeffrey D. Krupa, Simon Geoffroy-Gagnon, Jonathan F. Holzman
17 February 2016 • 11:15 - 11:30 AM | Part of SPIE OPTO
All-optical field-induced second-harmonic generation
Roderick B. Davidson II, Anna Yanchenko, Jed I. Ziegler, Sergey M.
Avanesyan, Benjamin J. Lawrie, Richard F. Haglund, Jr.
16 February 2016 • 5:15 - 5:30 PM | Part of SPIE OPTO
delmarphotonics
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The influence of femtosecond laser wavelength on waveguide fabrication
inside glasses
Javier Hernandez Rueda, Jasper Clarijs, Charmayne E. Smith, Richard K.
Brow, Denise M. Krol
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
Altos Photonics, Inc.
Bozeman, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1533 , 1640
Post-mortem characterization of fs laser-generated micro-pillars in
Li(Ni1/3Mn1/3Co1/3)O2 electrodes by laser-induced breakdown spectroscopy
Peter Smyrek, Johannes Pröll, Hans J. Seifert, Wilhelm Pfleging
18 February 2016 • 4:20 - 4:40 PM | Part of SPIE LASE
Activation of cells using femtosecond laser beam
Subrata Batabyal, Sarmishtha Satpathy, Young-tae Kim, Samarendra K. Mohanty
13 February 2016 • 11:10 - 11:30 AM | Part of SPIE BiOS
Heat transfer analysis of two wavelengths laser microprocessing inside glass
Aoi Matsumoto, Takayuki Tamaki, Shinichi Enoki, Etsuji Ohmura
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Analysis of human hairs and nails by femtosecond laser-induced breakdown
spectroscopy
Sergey S. Golik, Alexey A. Ilyin, Tamara M. Agapova, Michael Y. Babiy,
Yuliya S. Biryukova, Alexander Y. Mayor, Nataliya N. Golik
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Resolving the buildup of mode-locking with real-time spectroscopy at 90 MHz
Georg Herink, Claus Ropers, Bahram Jalali, Daniel R. Solli
15 February 2016 • 9:20 - 9:50 AM | Part of SPIE LASE
Dual-comb spectroscopy with a free-running bidirectionally mode-locked
fiber laser
Khanh Q. Kieu, Seyed Soroush Mehravar, Robert A. Norwood, Nasser N.
Peyghambarian
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Laser-printing and femtosecond laser-structuring of electrode materials for
the manufacturing of 3D lithium-ion micro-batteries
Johannes Pröll, Heungsoo Kim, Yijing Zheng, Peter Smyrek, Hans J. Seifert,
Alberto Piqué, Wilhelm Pfleging
15 February 2016 • 4:40 - 5:10 PM | Part of SPIE LASE
Laser-assisted morphing of complex three dimensional objects
Yves Bellouard, Jakub Drs
15 February 2016 • 3:10 - 3:30 PM | Part of SPIE LASE
SPIE EXHIBITOR
IMRA America, Inc.
Ann Arbor, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8521
SPIE EXHIBITOR
IMRA America, Inc.
Ann Arbor, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 2217
Effect of laser polarization and pulse energy on therapeutic, femtosecond
laser-induced second harmonic generation in corneal tissue
William R. Calhoun III, Ilko K. Ilev
14 February 2016 • 2:30 - 2:45 PM | Part of SPIE BiOS
High-speed arbitrary phase and amplitude femtosecond pulse shaping with a
digital micromirror device
Yina Chang, Chenglin Gu, Dapeng Zhang, Shih-Chi Chen
14 February 2016 • 12:00 - 12:20 PM | Part of SPIE LASE
An LSPR fiber optic sensor based on in-line micro-holes fabricated by a
second harmonic 400-nm femtosecond laser
Masahiko Shiraishi, Kazuhiro Watanabe, Atsushi Seki, Kenji Goya
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Compact fixed wavelength femtosecond oscillators as an add-on for tunable
titanium sapphire lases extend the range of applications towards multimodal
imaging and optogenetics
Tommi Hakulinen, Julien Klein
16 February 2016 • 2:20 - 2:35 PM | Part of SPIE BiOS
Fabrication of scattering source for an optical fiber sensor using
femtosecond laser internal processing
Naoki Chinen
17 February 2016 • 4:50 - 5:10 PM | Part of SPIE OPTO
High speed printing with polygon scan heads
Glenn Stutz
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Spectral phase interrogation using nonlinear spectra (SPINS)
Aram Gragossian, Brook A. Jilek, Mansoor Sheik-Bahae
16 February 2016 • 11:30 - 11:50 AM | Part of SPIE LASE
Polarization-depended nanocavitation in plasmonic nano-bowties enhanced
femtosecond laser generation of nanobubbles
Christos Boutopoulos, Adrien Dagallier, Maria Sansone, Évelyne
Lecavalier-Hurtubise, André-Pierre Blanchard-Dionne, Ali Hatef, Michel
Meunier
14 February 2016 • 9:40 - 10:00 AM | Part of SPIE LASE
Simultaneous spatial and temporal focusing: A route towards confined
nonlinear materials processing
Robert Kammel, Klaus Bergner, Jens Thomas, Roland Ackermann, Stefan Skupin,
Stefan Nolte
17 February 2016 • 3:50 - 4:20 PM | Part of SPIE LASE
Recent developments in widely tunable and high peak power ultrafast laser
sources and their adoption in biological imaging
Julien Klein
15 February 2016 • 4:20 - 4:35 PM | Part of SPIE BiOS
Laser-induced periodic surface structures (ripples): Dynamics, control, and
applications
Jörn Bonse, Sandra Höhm, Arkadi Rosenfeld, Jörg Krüger
17 February 2016 • 2:00 - 2:40 PM | Part of SPIE LASE
SPIE EXHIBITOR
UltraFast Innovations GmbH
Garching, Germany
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4629
Optically-induced currents in dielectrics and semiconductors: a new
ultrafast nonlinear optical effect
Jacob B. Khurgin
16 February 2016 • 4:00 - 4:30 PM | Part of SPIE OPTO
10µj, ultrashort sub-100 fs FCPA synthesizer
Florent Guichard, Marc Hanna, Ronic Chiche, Yoann Zaouter, Fabian Zomer,
Franck Morin, Clemens Hönninger, Eric P. Mottay, Patrick Georges
18 February 2016 • 8:40 - 9:00 AM | Part of SPIE LASE
Factors affecting amplified spontaneous emission in (C6H5C2H4NH3)2PbI4
perovskite
Wee Kiang Chong, David Giovanni, Teck Wee Goh, Krishnamoorthy Thirumal,
Xinfeng Liu, Nripan Mathews, Subodh G. Mhaisalkar, Tze Chien Sum
16 February 2016 • 11:30 - 11:45 AM | Part of SPIE OPTO
Nonlinear refraction dynamics of solvents and gases
Eric W. Van Stryland, Peng Zhao, Trenton Ensley, Matthew C. Reichert, David
J. Hagan
16 February 2016 • 1:40 - 2:10 PM | Part of SPIE LASE
Optical and magneto-optical properties in Fe-doped silica glasses
irradiated with oscillator-only femtosecond laser
Isabela de Carvalho Martins, Kevin De Mello Santamaría, Paulo S. Pizani,
Edgar D. Zanotto, Cleber R. Mendonça, Paulo Henrique D. Ferreira
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Compressive high speed flow microscopy with motion contrast
Bryan Bosworth, Jasper R. Stroud, Dung N. Tran, Trac D. Tran, Sang Chin,
Mark A. Foster
14 February 2016 • 3:50 - 4:10 PM | Part of SPIE BiOS
Towards a more complete understanding of laser ablation with ultrashort
pulses: Mechanisms of confined laser ablation and pulse duration dependence
of laser ablation efficiency
Heinz P. Huber, Jan Winter, Juergen Sotrop, Regina Moser, Stephan Rapp,
Rudolph Reiel, Matthias Domke
16 February 2016 • 8:00 - 8:30 AM | Part of SPIE LASE
Complex micro-optics fabricated by femtosecond 3D direct laser writing
Harald Giessen
16 February 2016 • 8:30 - 9:00 AM | Part of SPIE OPTO
Setup for analysis of optical and geometrical property changes in ex vivo
crystalline lenses during simulated accommodation modified with fs-laser
pulses for presbyopia treatment
Jan Hahn, Michael Fromm, Gabriel Kattermann, Tano Roth, Alexander Krüger,
Tammo Ripken
14 February 2016 • 9:45 - 10:00 AM | Part of SPIE BiOS
SPIE EXHIBITOR
FemtoFiberTec GmbH
Goslar, Germany
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4629
Time-optimized laser micro machining by using a new high dynamic and high
precision galvo scanner
Beat Jaeggi, Beat Neuenschwander, Markus Zimmermann, Markus Zecherle, Ernst
Wilhelm Boeckler
18 February 2016 • 9:20 - 9:40 AM | Part of SPIE LASE
Terahertz pulse generation from quantum cascade lasers
Sukhdeep S. Dhillon, Feihu Wang, Kenneth Maussang, Juliette Mangeney,
Jerome Tignon
17 February 2016 • 2:30 - 3:00 PM | Part of SPIE OPTO
Unstable multipulsing can be invisible to some ultrashort pulse measurement
techniques
Michelle Rhodes, Zhe Guang, Rick Trebino
16 February 2016 • 11:50 AM - 12:10 PM | Part of SPIE LASE
Terahertz generation and detection using femtosecond mode-locked Yb-doped
fiber laser
Moonsik Kong, Ji Su Kim, Sang-Pil Han, Namje Kim, Kiwon Moon, Kyung Hyun
Park, Min Yong Jeon
17 February 2016 • 2:10 - 2:30 PM | Part of SPIE OPTO
Two-photon lensless endoscopy by controlling the wave front in a multi-core
optical fiber
Siddharth Sivankutty, Esben R. Andresen, Géraud Bouwmans, Serge Monneret,
Hervé Rigneault
14 February 2016 • 3:50 - 4:10 PM | Part of SPIE BiOS
High-power mid-infrared high repetition-rate supercontinuum source based on
a chalcogenide step-index fiber
Stefan Kedenburg, Tobias R. J. Steinle, Florian Mörz, Andy Steinmann,
Harald Giessen
16 February 2016 • 4:00 - 4:20 PM | Part of SPIE LASE
Pulse front control with adaptive optics
Patrick S. Salter, Bangshan Sun, Martin J. Booth
15 February 2016 • 2:30 - 2:50 PM | Part of SPIE LASE
Random laser properties changes in rhodamine-B-doped organic/silica hybrid
materials using femtosecond laser micromachining
Luis M. G. Abegão, Paulo Henrique D. Ferreira, Adriano J. G. Otuka, Diego
S. Manoel, Fábio S. De Vicente, Cleber R. Mendonça, Gabriel Herbert Gomes,
Dario A. Donatti, Márcio A. R. C. Alencar, José Joatan Rodrigues, Jr.
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Periodic surface structures induced by femtosecond laser shaped pulses on
silicon
Gustavo F. B. Almeida, Renato J. Martins, Adriano J. G. Otuka, Jonathas P.
Siqueira, Cleber R. Mendonça
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
delmarphotonics
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Terahertz generation and detection using femtosecond mode-locked Yb-doped
fiber laser
Moonsik Kong, Ji Su Kim, Sang-Pil Han, Namje Kim, Kiwon Moon, Kyung Hyun
Park, Min Yong Jeon
17 February 2016 • 2:10 - 2:30 PM | Part of SPIE OPTO
Two-photon lensless endoscopy by controlling the wave front in a multi-core
optical fiber
Siddharth Sivankutty, Esben R. Andresen, Géraud Bouwmans, Serge Monneret,
Hervé Rigneault
14 February 2016 • 3:50 - 4:10 PM | Part of SPIE BiOS
High-power mid-infrared high repetition-rate supercontinuum source based on
a chalcogenide step-index fiber
Stefan Kedenburg, Tobias R. J. Steinle, Florian Mörz, Andy Steinmann,
Harald Giessen
16 February 2016 • 4:00 - 4:20 PM | Part of SPIE LASE
Pulse front control with adaptive optics
Patrick S. Salter, Bangshan Sun, Martin J. Booth
15 February 2016 • 2:30 - 2:50 PM | Part of SPIE LASE
Random laser properties changes in rhodamine-B-doped organic/silica hybrid
materials using femtosecond laser micromachining
Luis M. G. Abegão, Paulo Henrique D. Ferreira, Adriano J. G. Otuka, Diego
S. Manoel, Fábio S. De Vicente, Cleber R. Mendonça, Gabriel Herbert Gomes,
Dario A. Donatti, Márcio A. R. C. Alencar, José Joatan Rodrigues, Jr.
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Periodic surface structures induced by femtosecond laser shaped pulses on
silicon
Gustavo F. B. Almeida, Renato J. Martins, Adriano J. G. Otuka, Jonathas P.
Siqueira, Cleber R. Mendonça
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Unraveling functionality in two-dimensional quantum materials using
ultrafast optical and terahertz spectroscopy
Rohit P. Prasankumar, Natarajan Kamaraju, Yaomin Dai, Rolando Valdes
Aguilar, Dmitry A. Yarotski, Antoinette J. Taylor
18 February 2016 • 2:00 - 2:30 PM | Part of SPIE OPTO
An optical fiber probe based on quantum-dots integrated cavity fabricated
by femtosecond laser micromachining for single cell level temperature
measurement
Qi Zhang, Lei Yuan, Jie Huang, Hai Xiao
15 February 2016 • 5:30 - 7:30 PM | Part of SPIE BiOS
Ferrofluid-based optical fiber magnetic field sensor fabricated by
femtosecond laser irradiation and chemical etching
Yang Song, Lei Yuan, Jie Huang, Liwei Hua, Hai Xiao
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Self-mode-locked vertical-external-cavity surface-emitting laser
Arash Rahimi-Iman, Mahmoud Gaafar, Christoph Möller, Max Vaupel, Fan Zhang,
Dalia Al-Nakdali, Ksenia A. Fedorova, Wolfgang Stolz, Edik U. Rafailov,
Martin Koch
15 February 2016 • 6:00 - 6:25 PM | Part of SPIE LASE
Self-tuning fiber lasers
Steven Brunton, J. Nathan Kutz, Xing Fu
18 February 2016 • 9:40 - 10:00 AM | Part of SPIE LASE
SPIE EXHIBITOR
Onefive GmbH
Regensdorf, Switzerland
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8514
Modelling of noise-like pulses generated in mode-locked fibre lasers
Sergey M. Kobtsev, Sergey Smirnov
16 February 2016 • 12:10 - 12:30 PM | Part of SPIE LASE
SPASER as a complex system: femtosecond dynamics traced by ab-initio
simulations
Juan Sebastian Totero Gongora, Andrey E. Miroshnichenko, Yuri S. Kivshar,
Andrea Fratalocchi
17 February 2016 • 12:00 - 12:15 PM | Part of SPIE OPTO
Laser assisted bioprinting using a femtosecond laser with and without a
gold transductive layer: a parametric study
Helene Desrus, Catherine ARTIGUES, Bruno Chassagne, Raphael Devillard,
Stéphane Petit, Jean-Christophe Frricain, Florent Deloison, Fabien
Guillemot, Sylvain CATROS, Rainer Kling
15 February 2016 • 1:50 - 2:10 PM | Part of SPIE BiOS
COURSE AT CONFERENCE
Passive and Active Fiber Optics (SC1180)
Instructor(s): Paschotta, Rüdiger, RP Photonics Consulting GmbH
Level: Intermediate • 0.65 CEU • Length: 9.00 hours
Member Price: 525.00 | Non-Member Price: 635.00
14 February 2016 • 8:30 AM | Part of SPIE Photonics West
100W class compact Yb:YAG single crystal fiber amplifier for femtosecond
lasers without CPA
Vesna Markovic, Andreas Rohrbacher, Peter Hofmann, Wolfgang Pallmann,
Simonette Pierrot, Bojan Resan
15 February 2016 • 1:00 - 1:20 PM | Part of SPIE LASE
SPIE EXHIBITOR
Onefive GmbH
Regensdorf, Switzerland
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 5254
SPIE EXHIBITOR
MLD Technologies, LLC
Mountain View, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4451
Ultrafast laser inscription of 3D components for spatial multiplexing
Robert R. Thomson
18 February 2016 • 9:00 - 9:30 AM | Part of SPIE OPTO
Precision resection of intestine using ultrashort laser pulses
Rainer J. Beck, Wojciech S. Góra, Neil MacIntyre, Sonny Gunadi, David G.
Jayne, Duncan P. Hand, Jonathan D. Shephard
15 February 2016 • 2:10 - 2:30 PM | Part of SPIE BiOS
Performance of the Yb:Lu2O3 laser crystal in diode-pumped femtosecond
oscillators and high-power regenerative amplifiers
Etienne Caracciolo, Federico Pirzio, Matthias Kemnitzer, Annalisa
Guandalini, Florian Kienle, Antonio Agnesi, Juerg Aus der Au
16 February 2016 • 1:40 - 2:00 PM | Part of SPIE LASE
Time resolved digital-holographic analysis of femtosecond laser-induced
photodisruption
Emanuel Saerchen, Johannes Wenzel, Alexander Krüger, Holger Lubatschowski,
Tammo Ripken
15 February 2016 • 2:30 - 2:50 PM | Part of SPIE BiOS
Analysis of photoacoustic response from plasmonic nanostructures irradiated
by ultrafast laser in water
Ali Hatef, Behafarid Darvish, Adrien Dagallier, Christos Boutopoulos,
Michel Meunier
15 February 2016 • 1:45 - 2:00 PM | Part of SPIE BiOS
Mid-infrared supercontinuum generation up to 4.6 µm using step-index indium
fluoride fiber pumped by a femtosecond fiber laser near 2 µm
Reza Salem, Zhuo Jiang, Dongfeng Liu, Robert Pafchek, Paul Foy, Mohammed
Saad, Doug Jenkins, Peter Fendel, Alex E. Cable
16 February 2016 • 9:00 - 9:20 AM | Part of SPIE LASE
Phase matched second harmonic generation in an on-chip high-Q lithium
niobate microresonator fabricated by femtosecond laser direct writing
Jintian Lin, Yingxin Xu, Zhiwei Fang, Min Wang, Wei Fang, Ya Cheng,
Jiangxin Song
17 February 2016 • 9:00 - 9:20 AM | Part of SPIE LASE
COURSE AT CONFERENCE
Introduction to Ultrafast Optics (SC746)
Instructor(s): Trebino, Rick, Georgia Institute of Technology
Level: Introductory • 0.35 CEU • Length: 4.00 hours
Member Price: 300.00 | Non-Member Price: 355.00
14 February 2016 • 1:30 PM | Part of SPIE Photonics West
Ultrafast laser ablation of transparent materials
Lara Bauer, Simone Russ, Myriam Kaiser, Malte Kumkar, Birgit Faisst, Rudolf
Weber, Thomas Graf
17 February 2016 • 3:20 - 3:40 PM | Part of SPIE LASE
Modelling and simulation of ultrashort pulse amplification
Christoph Pflaum, Rainer Hartmann, Zhabiz Rahimi
16 February 2016 • 2:00 - 2:20 PM | Part of SPIE LASE
Large cross-phase modulation driven by intense THz field
Carlo Vicario, Mostafa Shalaby, Christoph P. Hauri
18 February 2016 • 3:50 - 4:10 PM | Part of SPIE OPTO
Two-photon excitation endoscopy through a multimode optical fiber
Edgar E. Morales Delgado, Demetri Psaltis, Christophe Moser
15 February 2016 • 2:20 - 2:40 PM | Part of SPIE BiOS
High peak power ultrafast Cr:ZnSe oscillator and power amplifier
Evgeny Slobodchikov, Logan R. Chieffo, Kevin F. Wall
15 February 2016 • 8:40 - 9:00 AM | Part of SPIE LASE
High average power (25W) high peak power (10 TW) high contrast (>1010)
femtosecond laser chain
Raphael Clady, Vadim I. Tcheremiskine, Yasmina Azamoum, Laurent Charmasson,
Nicolas Sanner, Olivier P. Uteza, Marc L. Sentis
16 February 2016 • 1:00 - 1:20 PM | Part of SPIE LASE
New generation of high average power industry grade ultrafast ytterbium
fiber lasers
Alexander Yusim, Igor Samartsev, Oleg Shkurikhin, Daniil V. Myasnikov,
Andrey Bordenyuk, Nikolai Platonov, Vijay Kancharla, Valentin P. Gapontsev
18 February 2016 • 3:40 - 4:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
Swamp Optics, LLC
Atlanta, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 3056
delmarphotonics
commented
on 13 Jan 2016
Laser energy deposition at the surface of dielectrics exposed to single
15-fs laser pulse
Corinne Pasquier, Marc L. Sentis, Olivier P. Utéza, Nicolas Sanner
16 February 2016 • 9:10 - 9:30 AM | Part of SPIE LASE
Zero degree contour cutting below 100 µm feature size with femtosecond laser
Klaus Stolberg, Susanna Friedel
16 February 2016 • 2:40 - 3:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
EOLITE Lasers
Pessac, France
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 5159
Holographic vector-wave femtosecond laser processing
Yoshio Hayasaki
18 February 2016 • 1:40 - 2:10 PM | Part of SPIE OPTO
New class of compact diode pumped sub 10-fs lasers for biomedical
applications
Tuan Le, Ole B. Jensen, André Müller, Bernd Sumpf, Angelika Unterhuber,
Peter E. Andersen
14 February 2016 • 2:30 - 2:50 PM | Part of SPIE LASE
SPIE EXHIBITOR
Continuum
San Jose, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1332
Femtosecond laser ablation of silica based glasses and the role of the
dissociation energy
Moritz Grehn, Thomas Seuthe, Michael Höfner, Nils Griga, Alexandre
Mermillod-Blondin, Markus Eberstein, Jörn Bonse
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
SPIE EXHIBITOR
Alnair Labs Corp.
Shinagawa-ku Tokyo, Japan
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4951
Photochemical reduction of graphene oxide (GO) by femtosecond laser
irradiation
Muttaqin Yasin, Takahiro Nakamura, Shunichi Sato, Yuta Nishina
18 February 2016 • 2:00 - 2:20 PM | Part of SPIE LASE
SPIE EXHIBITOR
Calmar Laser
Palo Alto, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 2536
Biocompatibility of novel ultracompact femtosecond laser oscillators for
multiphoton imaging
Aisada Uchugonova, Hans G. Breunig, Tuan Li, Karsten König
16 February 2016 • 10:50 - 11:15 AM | Part of SPIE BiOS
Direct writing of fiber optic components in photonic crystal fibers and
other specialty fibers
Luis Andre Fernandes, Omur Sezerman, Garland Best, Mi Li Ng, Saidou Kane
15 February 2016 • 9:10 - 9:30 AM | Part of SPIE LASE
Femtosecond fiber-CPA system employing coherent combination of a multicore
fiber
Arno Klenke, Michal Wojdyr, Michael Müller, Marco Kienel, Jens Limpert,
Andreas Tünnermann
17 February 2016 • 8:30 - 8:50 AM | Part of SPIE LASE
Quantized blistering of transparent films with femtosecond laser
interference
Stephen Ho, Prasoon Jha, Peter R. Herman
17 February 2016 • 9:10 - 9:30 AM | Part of SPIE LASE
Femtosecond laser processing of transparent materials for assembly-free
fabrication of photonic microsensors
Lei Yuan, Jie Huang, Jie Liu, Yang Song, Qi Zhang, Jincheng Lei, Hai Xiao
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Femtosecond laser-triggered rupture of biodegradable polymer capsules
containing fluorescent molecules
Kazumasa Ariyasu, Mitsuhiro Terakawa
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Femtosecond lasers for machining of transparent, brittle materials:
Ablative vs. non-ablative femtosecond laser processing
Victor V. Matylitsky, Frank Hendricks
15 February 2016 • 2:50 - 3:10 PM | Part of SPIE LASE
Time resolved study of femtosecond laser induced micro-modifications inside
transparent brittle materials
Frank Hendricks, Victor V. Matylitsky, Matthias Domke, Heinz P. Huber
16 February 2016 • 2:50 - 3:10 PM | Part of SPIE LASE
Femtosecond laser direct writing of silver microwire in hydrogel
Mitsuhiro Terakawa, Maria Leilani Y. Torres-Mapa, Dag Heinemann, Anton
Hördt, Yasutaka Nakajima, Nikolay N. Nedyalkov, Heiko Meyer, Tammo Ripken,
Alexander Heisterkamp
14 February 2016 • 11:20 - 11:40 AM | Part of SPIE LASE
SPIE EXHIBITOR
FIBERCRYST S.A.S.
Decines Charpieu, France
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4137
SPIE EXHIBITOR
Amplitude Systemes
Pessac, France
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1332
Femtosecond laser pulse shaping at megahertz rate via a digital micromirror
device
Chenglin Gu, Dapeng Zhang, Jiyi Cheng, Shih-Chi Chen
17 February 2016 • 4:30 - 4:50 PM | Part of SPIE OPTO
Ultrafast laser mixing of metals as a route to create stable
nanocrystalline materials
Keegan J. Schrider, Ben R. Torralva, Steven M. Yalisove
17 February 2016 • 4:50 - 5:10 PM | Part of SPIE LASE
Tailored femtosecond Bessel beams for high-throughput, taper-free
through-silicon vias (TSVs) fabrication
Fei He, Junjie Yu, Wei Chu, Zhaohui Wang, Yuanxin Tan, Ya Cheng, Koji
Sugioka
15 February 2016 • 10:20 - 11:00 AM | Part of SPIE LASE
New trends in laser micromachining
Frank Gaebler
16 February 2016 • 9:00 - 9:20 AM | Part of SPIE LASE
Monitoring femtosecond laser microscopic photothermolysis with multimodal
microscopy
Yimei Huang, Harvey Lui, Jianhua Zhao, David I. McLean, Haishan Zeng
14 February 2016 • 11:00 - 11:20 AM | Part of SPIE BiOS
Direct femtosecond laser writing of buried infrared waveguides in
chalcogenide glasses
David Le Coq, Eugène Bychkov, Pascal Masselin
15 February 2016 • 11:30 AM - 12:00 PM | Part of SPIE OPTO
Comparison of low and high pulse energy regimes of femtosecond waveguide
writing
Mikhail A. Bukharin, Dmitriy V. Khudyakov
17 February 2016 • 6:00 - 8:00 PM | Part of SPIE OPTO
Nanotextured surfaces for surface enhanced Raman spectroscopy and sensors
Saulius Juodkazis
16 February 2016 • 3:30 - 4:00 PM | Part of SPIE LASE
Tribological properties of femtosecond laser-induced periodic surface
structures on metals
Jörn Bonse, Robert Koter, Manfred Hartelt, Dirk Spaltmann, Simone Pentzien,
Sandra Höhm, Arkadi Rosenfeld, Jörg Krüger
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
Broadband wavelength tuning of hybrid femtosecond Er/Tm fiber laser system
in microstructured suspended-core tellurite fiber
Maksim Y. Koptev, Elena A. Anashkina, Alexey V. Andrianov, Vitaly V.
Dorofeev, Alexey F. Kosolapov, Sergey V. Muravyev, Arkady V. Kim
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
10-kW peak power femtosecond pulses from a mode-locked fiber ring laser
emitting at 2.8 µm
Simon S. Duval, Michel Olivier, Vincent Fortin, Martin Bernier, Michel
Piché, Réal Vallée
15 February 2016 • 8:30 - 8:50 AM | Part of SPIE LASE
Structural, linear and nonlinear optical properties of metal-semiconductor
nanohybrids prepared by laser ablation
Yury Ryabchikov, Artem Danilov, Vladimir Lysenko, Ronan Le Dantec, Victor
Timoshenko, Andrei Kabashin
15 February 2016 • 3:30 - 3:50 PM | Part of SPIE LASE
High-throughput depth-resolved parallel laser machining based on temporal
focusing
Dapeng Zhang, Chenglin Gu, Shih-Chi Chen
15 February 2016 • 2:30 - 2:50 PM | Part of SPIE OPTO
Surface functionalization with femtosecond lasers
Chunlei Guo
16 February 2016 • 4:00 - 4:30 PM | Part of SPIE LASE
SPIE EXHIBITOR
Altos Photonics, Inc.
Bozeman, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8424
Direct formation of 100 nm-sized structure by laser-induced forward
transfer (LIFT) using femtosecond laser beam
Takahiro Nakamura, Koki Omachi, Shinichi Sato
16 February 2016 • 6:00 - 8:00 PM | Part of SPIE LASE
delmarphotonics
commented
on 13 Jan 2016
Three-photon imaging of ovarian cancer
Jennifer K. Barton, Elizabeth J. Swan, B. Amirsolaimani, Photini Faith
Rice, Khanh Q. Kieu
13 February 2016 • 8:50 - 9:10 AM | Part of SPIE BiOS
High power parallel ultrashort pulse laser processing
Arnold Gillner, M. Jüngst, Patrick Gretzki, Martin Reininghaus
15 February 2016 • 3:40 - 4:10 PM | Part of SPIE LASE
SPIE EXHIBITOR
FEMTOprint SA
Muzzano Ticino, Switzerland
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8924
SPIE EXHIBITOR
UpTek Solutions Corp.
Bohemia, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4347
Combination of photothermal and photodynamic effects for cancer cell
inactivation through surface plasmon resonance with Au nanoring based on
two-photon absorption
Chih-Ken Chu, Jen-Hung Hsiao, Jian-He Yu, Yi-Chou Tu, Chih-Kang Yu,
Shih-Yang Chen, Po-Hao Tseng, Shuai Chen, Yean-Woei Kiang, Chih-Chung Yang
15 February 2016 • 1:40 - 2:10 PM | Part of SPIE BiOS
Fast and ultrafast all-optical control of light in nematic liquid crystals
Igor Muševic
16 February 2016 • 8:30 - 9:05 AM | Part of SPIE OPTO
Ultrafast pulse lasers jump to industrial macro applications
Martin Griebel
15 February 2016 • 5:20 - 5:40 PM | Part of SPIE LASE
Control and mapping ultrafast plasmonic field with PEEM
Boyu Ji, Jiang Qin, Alemayehu Nana, Zuoqiang Hao, Toshihisa Tomie, Jingquan
Lin
18 February 2016 • 12:00 - 12:15 PM | Part of SPIE OPTO
Single shot ultrafast laser ablation of single layer CVD graphene
Abel Gil Villalba, Chen Xie, Roland Salut, Luca Fufaro, Remo Giust, Maxime
Jacquot, Pierre-Ambroise Lacourt, John M. Dudley, François Courvoisier
16 February 2016 • 4:50 - 5:10 PM | Part of SPIE LASE
SPIE EXHIBITOR
Spectra-Physics/A Newport Company
Santa Clara, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8823
First multiphoton tomography of brain in man
Karsten König, Sven R. Kantelhardt M.D., Alf Giese M.D.
13 February 2016 • 1:40 - 2:00 PM | Part of SPIE BiOS
SPIE EXHIBITOR
Fianium Inc.
Eugene, United States
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8600
SPIE EXHIBITOR
YY Labs., Inc.
Fremont, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 4039
Multi-modal optical microscopy with multiphoton, second-harmonic generation
and optical coherence microscopy using supercontinuum generation
Jaehun Kim, Daekeun Kim
14 February 2016 • 5:30 - 7:00 PM | Part of SPIE BiOS
SPIE EXHIBITOR
RPMC Lasers, Inc.
O'Fallon, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 2511 , 2613
Probing dynamics of laser cooling cycle in III-V semiconductor
heterostructures
Jan F. Schmidt, Jannis Oelmann, Denis V. Seletskiy
18 February 2016 • 9:40 - 10:00 AM | Part of SPIE OPTO
Fabrication of metamaterial-based infrared perfect absorber structures
using direct laser write lithography
Ihar Fanyaeu, Vygantas Mizeikis
16 February 2016 • 2:00 - 2:20 PM | Part of SPIE OPTO
Rod-type photonic crystal fibers: Only the performance counts
Jens Limpert
18 February 2016 • 10:30 - 11:00 AM | Part of SPIE LASE
SPIE EXHIBITOR
Light Conversion
Vilnius, Lithuania
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1533
Real time imaging of live cell membrane using laser trapping, reflectance
confocal microscopy, and multiphoton fluorescence microscopy
Yunxian Tian, Haishan Zeng, Shangyuan Feng, Yimei Huang, Yimei Huang,
Jianhua Zhao, Eddie Shen, Wenbo Wang, Caigan Du
14 February 2016 • 5:30 - 7:00 PM | Part of SPIE BiOS
SPIE EXHIBITOR
Spectra-Physics/A Newport Company
Santa Clara, United States
Exhibiting at SPIE Photonics West 2016 Exhibition • Booth 1400
Broadband ultrafast saturable absorption of black phosphorus nanosheets
over near- to middle-infrared region
Kangpeng Wang, Beata M. Szydlowska, Gaozhong Wang, Johnathan N. Coleman,
Werner J. Blau
16 February 2016 • 9:15 - 9:30 AM | Part of SPIE OPTO
2D electronic spectroscopy of low-dimensional semiconductors
Tatjana Stoll, Kenneth L. Knappenberger, Jr., Giulio Cerullo
17 February 2016 • 2:30 - 3:00 PM | Part of SPIE OPTO
Integrating additive and subtractive processes in 3D nanofabrication
Yongfeng Lu, Wei Xiong, Ying Liu, Yunshen Zhou, Lan Jiang, Tommaso
Baldacchini, Jean-Francois Silvain
15 February 2016 • 8:00 - 8:30 AM | Part of SPIE LASE
Universal ultrafast dynamics of the phase transition in vanadium dioxide
thin films
Nathaniel Brady, Kannatassen Appavoo, Minah Seo, Joyeeta Nag, Rohit P.
Prasankumar, Richard F. Haglund, Jr., David J. Hilton
17 February 2016 • 5:00 - 5:15 PM | Part of SPIE OPTO
SPIE EXHIBITOR
Light Conversion
Vilnius, Lithuania
Exhibiting at SPIE BiOS EXPO 2016 • Booth 8424
Structure-function relationship of perovskite film morphology and charge
dynamics
Swee Sien Lim, Wee Kiang Chong, Herlina Dewi, Nripan Mathews, Subodh G.
Mhaisalkar, Tze Chien Sum
16 February 2016 • 11:15 - 11:30 AM | Part of SPIE OPTO
Buckled graphene-like materials in ultrashort and strong optical field:
coherent control of symmetry and reversibility
Hamed Koochaki Kelardeh, Vadym Apalkov, Mark I. Stockman
16 February 2016 • 9:00 - 9:15 AM | Part of SPIE OPTO
Advanced biosensing methodologies developed for evaluating performance
quality and safety of emerging biophotonics technologies and medical devices
Ilko K. Ilev, Bennett Walker, William Calhoun, Moinuddin Hassan
14 February 2016 • 10:30 - 11:10 AM | Part of SPIE BiOS
Efficient broadband TW level OPCPA pumped by a rectangular pulse
Yuriy Stepanenko, Pawel Wnuk, Tomasz Kardas, Michal Nejbauer, Czeslaw
Radzewicz
16 February 2016 • 11:30 - 11:50 AM | Part of SPIE LASE
Pulsed THz spectroscopy of substance under disordered opaque cover
Vyacheslav A. Trofimov, Irina G. Zakharova, Dmitrii Y. Zagursky
16 February 2016 • 2:50 - 3:10 PM | Part of SPIE OPTO
delmarphotonics
commented
on 10 Apr 2015
How to choose BBO crystal for type II THG
//www.dmphotonics.com/BBO%20crystal%20for%20type%20II%20THG/How%20to%20choose%20BBO%20crystal%20for%20type%20II%20THG.htm
BBO crystal, Type I, SHG 500 nm to 250 nm, 6x6x0.2 mm, AR coated
[email protected]
https://www.youtube.com/watch?v=IKUR4-NKhjk
BBO and AgGaS2 crystal [email protected]
https://www.youtube.com/watch?v=zRTO6bpbAcs
BBO crystal, Type I, SHG [email protected]
https://www.youtube.com/watch?v=g3qthmmUvjg
BBO for OPA - request a quote [email protected]
BBO, theta = 32 deg, type II crystal
size: 5mm x 5mm aperture, 3mm thickness (along beam propagation)
pumped by 800nm, 150fs
Type I, SHG, 800 nm to 400 nm - request a quote [email protected]
Orientation: Theta=29.2 deg; Phi=90 deg (+/- 0.5 deg)
Specifications:
Material: BBO crystal
Dimensions: 6 x 6 mm (+/-0.1 mm)
Thickness: 0.2 mm
Surface Quality: 10-5, scratch-dig
Flatness: Lambda/6 at 633 nm
Parallelism:
delmarphotonics
commented
on 15 Jul 2014
BBO crystal, Type I, SHG [email protected]
BBO crystal, Type I, SHG [email protected]
BBO for OPA - request a quote [email protected]
BBO, theta = 32 deg, type II crystal
size: 5mm x 5mm aperture, 3mm thickness (along beam propagation)
pumped by 800nm, 150fs
Type I, SHG, 800 nm to 400 nm - request a quote [email protected]
Orientation: Theta=29.2 deg; Phi=90 deg (+/- 0.5 deg)
Specifications:
Material: BBO crystal
Dimensions: 6 x 6 mm (+/-0.1 mm)
Thickness: 0.2 mm
Surface Quality: 10-5, scratch-dig
Flatness: Lambda/6 at 633 nm
Parallelism:
delmarphotonics
commented
on 13 Jan 2016
CRYSTAL BBO PHASE-MATCHING ANGLE THETA=30 DEG AND Ø=0 DEG FOR 355NM
PUMP WAVELENGTH OPO PHASE-MATCHING TYPE- VTYPE -1 DIMENSIONS WIDTH: 8MM ,
HEIGHT: 6MM ,LENGTH: 18MM
CRYSTAL BBO PHASE-MATCHING ANGLE THETA=37 DEG AND Ø=30 DEG FOR 355NM PUMP
WAVELENGTH OPO PHASE-MATCHING TYPE-TYPE -2 DIMENSIONS WIDTH: 12MM , HEIGHT:
6MM , LENGTH: 20MM
HALF WAVE PLATES: 2.1 MATERIAL: QUARTZ 2.2 ORDER: MULTIPLE-ORDER 2.3
WAVELENGTH: 355 NM 2.4 TRANSMITTED WAVEFRONT DISTORTION: < ʎ/4 (632NM) 2.5
BOTH SIDE SURFACE QUALITIES: 20-10 SCR/DIG. 2.6 PARALLELISM OF SIDES: <
10ARCSEC 2.7 DIAMETER: 25 MM 2.8 RETARDATION ACCURACY: +/- ʎ/200 OR BETTER
2.9 DAMAGE THRESHOLD: ~1 MW/CM2 2.10 SURFACE COATING: BOTH SIDES PROVIDED
WITH MULTIPLE LAYER HARD, DIELECTRIC AR COATING OF REFLECTIVITY < 1% FOR
NORMAL INCIDENCE AT DESIGN WAVELENGTHS. 2.11 MOUNTED IN BLACK ANODISED
ALUMINIUM RING 2.12
delmarphotonics
commented
on 10 Apr 2015
BBO_TypeI_10_10_0.5_AR_800_400
BBO crystal, 10 x 10 x 0.5 mm
Type I,
cut angle Phi=0 deg, Theta=29.2 deg
with AR coating at 800 nm + 400 nm (R
segorov
commented
on 16 Jun 2015
We'd like to replicate some experiments related to photon quantum
entanglement, something similar to fig. 1 in Pittman, Shih, Strekalov and
Sergienko paper for which we will use a UV laser for about 320 ~ 355
wavelenght. I'd like to buy two BBO crystals type I and II, maybe with 2 mm
in thikness and with an splitting angle of few degrees.
--paper is attached.
I'd like to ask for a quote for the type I and II BBO
*355, 400 and 405 working wavelenght
*laser beam with ~3 mm in diameter
*splitting path of few degrees
*coating and no coating
*2 mm in thikness would be ok I believe
delmarphotonics
commented
on 15 Jul 2014
Featured Inquiry:
Subject: BBO crystal for autocorrelation
We are working with femtosecond pulsed laser (400-1100nm emission
wavelength). I want to study in particular the pulse width at 532 nm fs as
well as ps pulses. We want to know about the pulsed width of fs as well as
ps pulses using autocorrelation technique.
Kindly give me information about a particular BBO for the solution of above
listed problems.
Email [email protected] for custom quote!
delmarphotonics
commented
on 10 Mar 2016
we built up a UV (400nm) pump VIS (800nm) probe setup with ultrashort
laser pulses and therefore we want to measure the pulse duration with a
BBO crystal.
So we would like to get a quote for the following items:
10 µm BBO
20 µm BBO
50 µm BBO
the aperature size can be relatively small (~5mm) and we will work below
any damage threshold. If you need any further information, please let me
know.
segorov
commented
on 15 Jun 2015
BBO-5-5-0.3-P-800-400 [email protected] New!
BBO crystal
5x5x0.3mm
Theta=64°,phi=90°
Coating: P/P @ 800/400nm
2014 TAMU Physics Festival Commercial
Commercial courtesy of Suddenlink Communications.
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This is a test of the FP physics mod by Zedonius, via a full game play-through on my pincab. This video shows the potential of this mod, specifically via the ...
User Comments
open6l
commented
on 21 Sep 2013
The ball response is looking real good!!! Can't wait to try this out. How
much tweaking did you have to do to the table itself?
magicmastera
commented
on 22 Sep 2013
WOW, cant wait to play with it, thank you for the hard work, Awsome! Hope
you you bring it out soon.
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