Vasan Venugopalan
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Mechanisms of pulsed laser ablation of biological tissues
A Vogel, V Venugopalan
Chemical Reviews 103 (2), 577-644, 2003
Non–invasive measurements of breast tissue optical properties using frequency–domain photon migration
BJ Tromberg, O Coquoz, JB Fishkin, T Pham, ER Anderson, J Butler, ...
Philosophical Transactions of the Royal Society of London. Series B …, 1997
Thermal relaxation of port-wine stain vessels probed in vivo: the need for 1-10-millisecond laser pulse treatment.
CC Dierickx, JM Casparian, V Venugopalan, WA Farinelli, RR Anderson
Journal of Investigative Dermatology 105 (5), 709-714, 1995
Role of laser-induced plasma formation in pulsed cellular microsurgery and micromanipulation
V Venugopalan, A Guerra III, K Nahen, A Vogel
Physical Review Letters 88 (7), 078103, 2002
Perturbation Monte Carlo methods to solve inverse photon migration problems in heterogeneous tissues
CK Hayakawa, J Spanier, F Bevilacqua, AK Dunn, JS You, BJ Tromberg, ...
Optics Letters 26 (17), 1335-1337, 2001
Pulsed laser microbeam-induced cell lysis: time-resolved imaging and analysis of hydrodynamic effects
KR Rau, PA Quinto-Su, AN Hellman, V Venugopalan
Biophysical Journal 91 (1), 317-329, 2006
Laser-induced mixing in microfluidic channels
AN Hellman, KR Rau, HH Yoon, S Bae, JF Palmer, KS Phillips, ...
Analytical Chemistry 79 (12), 4484-4492, 2007
Radiative transport in the diffusion approximation: an extension for highly absorbing media and small source-detector separations
V Venugopalan, JS You, BJ Tromberg
Physical Review E 58 (2), 2395-2407, 1998
Comparison of cortical bone ablations by using infrared laser wavelengths 2.9 to 9.2 μm
GM Peavy, L Reinisch, JT Payne, V Venugopalan
Lasers in Surgery and Medicine 25 (5), 421-434, 1999
In vivo multiphoton NADH fluorescence reveals depth-dependent keratinocyte metabolism in human skin
M Balu, A Mazhar, CK Hayakawa, R Mittal, TB Krasieva, K König, ...
Biophysical Journal 104 (1), 258-267, 2013
Examination of laser microbeam cell lysis in a PDMS microfluidic channel using time-resolved imaging
PA Quinto-Su, HH Lai, HH Yoon, CE Sims, NL Allbritton, V Venugopalan
Lab on a Chip 8 (3), 408-414, 2008
Investigation of laser-induced cell lysis using time-resolved imaging
KR Rau, A Guerra III, A Vogel, V Venugopalan
Applied Physics Letters 84 (15), 2940-2942, 2004
Physical factors involved in stress-wave-induced cell injury: the effect of stress gradient
AG Doukas, DJ McAuliffe, S Lee, V Venugopalan, TJ Flotte
Ultrasound in Medicine & Biology 21 (7), 961-967, 1995
Controlled ablation of microtubules using a picosecond laser
EL Botvinick, V Venugopalan, JV Shah, LH Liaw, MW Berns
Biophysical Journal 87 (6), 4203-4212, 2004
Thermodynamic response of soft biological tissues to pulsed infrared-laser irradiation
V Venugopalan, NS Nishioka, BB Mikić
Biophysical Journal 70 (6), 2981-2993, 1996
Radiative transport in the δ-P approximation: accuracy of fluence rate and optical penetration depth predictions in turbid semi-infinite media
SA Carp, SA Prahl, V Venugopalan
Journal of Biomedical Optics 9 (3), 632-647, 2004
Biophysical Response to Pulsed Laser Microbeam‐Induced Cell Lysis and Molecular Delivery
AN Hellman, KR Rau, HH Yoon, V Venugopalan
Journal of Biophotonics 1 (1), 24-35, 2008
Mid‐Infrared laser ablation of the cornea: A comparative study
Q Ren, V Venugopalan, K Schomacker, TF Deutsch, TJ Flotte, ...
Lasers in Surgery and Medicine 12 (3), 274-281, 1992
Nonspherical laser-induced cavitation bubbles
KY Lim, PA Quinto-Su, E Klaseboer, BC Khoo, V Venugopalan, CD Ohl
Physical Review E 81 (1), 016308, 2010
Optoacoustic tomography using time-resolved interferometric detection of surface displacement
BP Payne, V Venugopalan, BB Mikić, NS Nishioka
Journal of Biomedical Optics 8 (2), 273-280, 2003
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