Dr. Shuo Tang
Address
Education
Department of Electrical and Computer Engineering
University of British Columbia
4105-2332 Main Mall
Vancouver, BC V6T 1Z4, Canada
Phone: 604-827-4314
Email: tang@ece.ubc.ca
• Postgraduate Training, Beckman Laser Institute, University of California, Irvine
Advisor: Prof. Bruce J. Tromberg
2003– 2006
• Ph.D., Electrical Engineering, University of California, Los Angeles,
June 2003
Advisor: Prof. Jia-Ming Liu
• M.S., Electronics, Peking University, China
July 1997
• B.S., Electronics, Peking University, China
July 1992
Professional 2013 – present
Associate Professor, Department of Electrical and Computer
Experience Engineering, University of British Columbia
2007 – 2013
Assistant Professor, Department of Electrical and Computer
Engineering, University of British Columbia
Research
Interest
Biomedical optical imaging systems and devices, including multiphoton microscopy,
optical coherence tomography, photoacoustic imaging, and micro-endoscopy systems
for biomedical applications.
Societies
Member of OSA, IEEE, and SPIE.
Publications
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J.L. Yu, H. Zeng, H. Lui, J.S. Skibina, G. Steinmeyer, and S. Tang,
“Characterization and application of chirped photonic crystal fiber in multiphoton
imaging,” Optics Express, Vol. 22, pp. 10366-10379, May 2014.
T. Lai and S. Tang, “Cornea characterization using a combined multiphoton
microscopy and optical coherence tomography system,” Biomedical Optics
Express, Vol. 5, pp. 1494-1511, May 2014.
M.J. Ju, J.G. Shin, S. Hoshi, Y. Yasuno, B.H. Lee, S. Tang, and T.J. Eom, “3Dvolumetric human meibomian gland investigation using polarization sensitive
optical coherence tomography,” Journal of Biomedical Optics, Vol. 19, Article No.
030503 1-3, Mar. 2014.
M.Z. Shen, Y.X. Tian, S.P. Chong, J.H. Zhao, H. Zeng, and S. Tang, “Quantifying
the backscattering of second harmonic generation in tissues with confocal
multiphoton microscopy,” Journal of Biomedical Optics, Vol. 18, Article No.
115003 1-10, Nov. 2013.
S.P. Chong, T. Lai, Y.F. Zhou, and S. Tang, “Tri-modal microscopy with
multiphoton and optical coherence microscopy/tomography for multi-scale and
multi-contrast imaging,” Biomedical Optics Express, Vol. 4, pp. 1584-1594, Sept.
2013.
M. J. Ju, Y. J. Hong, S. Makita, Y. H. Lim, K. Kurokawa, L. Duan, M. Miura, S.
Tang, and Y. Yasuno, “Advanced multi-contrast Jones matrix optical coherence
tomography for Doppler and polarization sensitive imaging,” Optics Express, Vol.
21, pp. 19412-19436, Aug. 2013.
H.Q. Wang, A.M.D. Lee, Z. Frehlick, H. Lui, D.I. McLean, S. Tang, and H. Zeng,
“Perfectly registered multiphoton and reflectance confocal video rate imaging of in
vivo human skin,” Journal of Biophotonics, Vol. 6, pp. 299-382, Apr. 2013.
M. Z. Shen, J. H. Zhao, H. Zeng, and S. Tang, “Calibrating the measurement of
wavelength-dependent SHG from biological tissues with a BBO crystal,” Journal of
Biomedical Optics, Vol. 18, Article No. 031109 1-8, Mar. 2013.
Y.F. Zhou, K.K.H. Chan, T. Lai, and S. Tang, “Characterizing refractive index and
thickness of biological tissues using combined multiphoton microscopy and optical
coherence tomography,” Biomedical Optics Express, Vol. 4, pp. 38-50, Jan. 2013.
Y.Q. Yu, A.M.D. Lee, H.Q. Wang, S. Tang, J.H. Zhao, H. Lui, and H. Zeng,
“Imaging-guided two-photon excitation-emission-matrix measurements of human
skin tissues,” Journal of Biomedical Optics, Vol.17, Article No. 077004 1-8, Jul.
2012.
S. Tang, Y.F. Zhou, and M.J. Ju, “Multimodal optical imaging with multiphoton
microscopy and optical coherence tomography,” Journal of Biophotonics, Vol. 5,
pp. 396-403, May 2012.
S. Tang, Y.F. Zhou, K. K. H. Chan, and T. Lai, “Multiscale multimodal imaging
with multiphoton microscopy and optical coherence tomography,” Optics Letters,
Vol. 36, pp. 4800-4802, Dec. 2011.
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K.K.H. Chan and S. Tang, “Selection of convolution kernel in non-uniform fast Fourier
transform for Fourier domain optical coherence tomography,” Optics Express, Vol. 19,
pp. 26891-26904, Dec. 2011.
28. A.M.D. Lee, H.Q. Wang, Y.Q. Yu, S. Tang, J.H. Zhao, H. Lui, D.I. McLean, and H.
Zeng, “In vivo video rate multiphoton microscopy imaging of human skin,” Optics
Letters, Vol. 36, pp. 2865-2867, Aug. 2011.
27. K.K.H. Chan and S. Tang “High-speed spectral domain optical coherence tomography
using non-uniform fast Fourier transform,” Biomedical Optics Express, Vol. 1, pp.
1309-1319, Dec. 2010.
26. J.H. Baek, T. Krasieva, S. Tang, Y.C. Ahn, C.S. Kim, D. Vu, Z.P. Chen, and P. WilderSmith, “An optical approach to the salivary pellicle,” Journal of Biomedical Optics, Vol.
14, Article No. 044001 1-6, Jul/Aug 2009.
25. S. Tang, J. Liu, T.B. Krasieva, Z.P. Chen, and B.J. Tromberg, “Developing compact
multiphoton systems using femtosecond fiber lasers,” Journal of Biomedical Optics
(Letters), Vol. 14, Article No. 030508 1-3, May/June 2009.
24. S. Tang, W.G. Jung, D. McCormick, T.Q. Xie, J.P. Su, Y.C. Ahn, B.J. Tromberg, and
Z.P. Chen, “Design and implementation of fiber-based multiphoton endoscopy with
microelectromechanical systems scanning,” Journal of Biomedical Optics, Vol. 14,
Article No. 034005 1-7, May/June 2009.
23. W.G. Jung, S. Tang, D.T. McCormick, T.Q. Xie, Y.C. Ahn, J.P. Su, I.V. Tomov, T.B.
Krasieva, B.J. Tromberg, and Z.P. Chen, “Miniaturized probe based on a
microelectromechanical system mirror for multiphoton microscopy,” Optics Letters,
Vol. 33, pp. 1324-1326, Jun. 2008.
22. S. Tang, C.H. Sun, T. B. Krasieva, Z. P. Chen, and B. J. Tromberg,“ Imaging subcellular scattering contrast using combined optical coherence and multiphoton
microscopy,” Optics Letters, Vol. 32, pp.503-505, Mar. 2007.
21. S. Tang, T. B. Krasieva, Z. P. Chen, and B. J. Tromberg, “Combined multiphoton
microscopy and optical coherence tomography using a 12 femtosecond, broadband
source,” Journal of Biomedical Optics (Letters), Vol. 11, Article No. 020502 1-3,
Mar./Apr. 2006.
20. S. Tang, T. B. Krasieva, Z. P. Chen, G. Tempea, and B. J. Tromberg, “Effect of pulse
duration on two-photon excited fluorescence and second harmonic generation in
nonlinear optical microscopy,” Journal of Biomedical Optics (Letters), Vol. 11, Article
No. 020501 1-3, Mar./Apr. 2006.
19. R. Vicente, S. Tang, J. Mulet, C.R. Mirasso, and J.M. Liu, “Synchronization properties
of two self-oscillating semiconductor lasers subject to delayed optoelectronic mutual
coupling,” Physical Review E, Vol. 73, Article No. 047201, Apr. 2006.
18. S. Tang, R. Vicente, M. C. Chiang, C. R. Mirasso, and J. M. Liu, “Nonlinear
dynamics of semiconductor lasers with mutual optoelectronic coupling,” IEEE
Journal of Selected Topics in Quantum Electronics, Vol. 10, pp. 936-943,
Sept./Oct. 2004.
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R. Vicente, S. Tang, J. Mulet, C. R. Mirasso, and J. M. Liu, “Dynamics of
semiconductor lasers with bidirectional optoelectronic coupling: stability, route to chaos
and entrainment,” Physical Review E, Vol. 70, Article No. 046216, Oct. 2004.
J. M. Liu and S. Tang, “Chaotic communications using synchronized semiconductor
lasers with optoelectronic feedback,” Comptes Rendus Physique, Vol. 5, pp. 657-668,
2004.
S. Tang and J. M. Liu, “Effects of message encoding and decoding on synchronized
chaotic optical communications,” IEEE Journal of Quantum Electronics, Vol. 39,
pp. 1468-1475, Nov. 2003.
S. Tang and J. M. Liu, “Chaos synchronization in semiconductor lasers with
optoelectronic feedback,” IEEE Journal of Quantum Electronics, Vol. 39, pp. 708-715,
June 2003.
S. Tang and J. M. Liu, “Experimental verification of anticipated and retarded
synchronization in chaotic semiconductor lasers,” Physical Review Letters, Vol. 90,
Article No. 194101 1-4, May 2003.
J. M. Liu, H. F. Chen, and S. Tang, “Synchronized chaotic optical communications at
high bit rates,” (invited) IEEE Journal of Quantum Electronics, Vol. 38, pp. 1184-1196,
Sept. 2002.
S. Tang, H. F. Chen, S. K. Hwang, and J. M. Liu, “Message encoding and decoding
through chaos modulation in chaotic optical communications,” IEEE Transactions on
Circuits and Systems I, Vol. 49, pp. 163-169, Feb. 2002.
S. Tang and J. M. Liu, “Message encoding-decoding at 2.5 Gbits/s through
synchronization of chaotic pulsing semiconductor lasers,” Optics Letters, Vol. 26, pp.
1843-1845, Dec. 2001.
J. M. Liu, H. F. Chen, and S. Tang, “Optical communication systems based on chaos in
semiconductor lasers,” IEEE Transactions on Circuits and Systems I, Vol. 48, pp. 14751483, Dec. 2001.
S. Tang, H. F. Chen, and J. M. Liu, “Stable route-tracking synchronization between two
chaotically pulsing semiconductor lasers,” Optics Letters, Vol. 26, pp. 1489-1491, Oct.
2001.
H. D. I. Abarbanel, M. B. Kennel, L. Illing, S. Tang, H. F. Chen, and J. M. Liu,
“Synchronization and communication using semiconductor lasers with optoelectronic
feedback,” IEEE Journal of Quantum Electronics, Vol. 37, pp. 1301-1311, Oct. 2001.
J. M. Liu, H. F. Chen, and S. Tang, “Synchronization of chaos in semiconductor lasers,”
Nonlinear Analysis: Theory, Methods & Applications, Vol. 47, pp. 5741-5751, Aug.
2001.
S. Tang and J. M. Liu, “Synchronization of high-frequency chaotic optical pulses,”
Optics Letters, Vol. 26, pp. 596-598, May 2001.
S. Tang and J. M. Liu, “Chaotic pulsing and quasi-periodic route to chaos in a
semiconductor laser with delayed opto-electronic feedback,” IEEE Journal of Quantum
Electronics, Vol. 37, pp. 329-336, Mar. 2001.
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S. Tang and Y. Q. Liu, “The performance of a 4×155 Mb/s optical FDM transmission
system,” (in Chinese), High Technology Letters, Vol. 6, pp. 32-36, Oct. 1996.
A. G. Li, S. Tang, and L. X. Zhu, “Performance of an optical FDM transmission
system with an EDFA,” (in Chinese), High Technology Letters, Vol. 4, pp. 21-24,
Nov.1994.
Y. Q. Liu, A. G. Li, and S. Tang, “140 Mb/s FSK direct detection incoherent optical
FDM transmission system,” (in Chinese), High Technology Letters, Vol. 3, pp. 9-11,
Feb.1993.