STUART (SHIZHUO) YIN PUBLICATIONS
PATENTS
1. Y. Yang, K. Chung, S. Yin, Z. Liu, and Q. Wang, “Analysis of volume holographic long period grating in photonic nanostructured fibers and waveguides,” Optical Engineering, Vol. 43, pp.2003-2008 (2004).
2.
D. Komisarek, K. Reichard, D. Merdes, D. Lysak, P.Lam,
3. D. Komisarek, K. Reichard, and S. Yin, “Enhancing the performance of non-scanning Fourier transform spectrometer by compensating manufacturing defects inherent to a Wollaston prism array,” Optics Communications, Volume 238, pp. 85-90 (2004).
4. K. Shi, P. Li, S. Yin, and Z. Liu, “Chromatic confocal microscopy using supercontinuum light,” Optical Express, Vol. 12, No. 10, pp. 2096-2101 (2004).
5. Kun-Wook Chung and Shizhuo Yin, “Analysis of a widely tunable long-period grating by use of an ultra thin cladding layer and higher-order cladding mode coupling,” Optics Letters, Vol. 29, pp.812-814 (2004).
6. Kun-wook Chung and Shizhuo Yin, “A highly nonlinear dispersion shifted fiber with 9.3 mm2 effective area and low loss for all fiber wavelength converter,” Microwave and Optical Technology Letters,” pp. 153-156 (2004).
7. Kun-wook Chung, Sungwon Kim, and Shizhuo Yin, “Design of a highly nonlinear dispersion-shited fiber with a small effective area by use of the beam propagation method with the Gaussian approximation method,” Optics Letters., Vol. 28, pp. 2031-2033 (2003).
8.
Shizhuo Yin, Youwei Fu, and
9. Hongyu Liu, Weihung Su, Karl Reichard, and Shizhuo Yin, "Calibration-based phase-shifting projected fringe profilometry for accurate absolute 3D surface profile measurement," Optics Communications, v 216, pp. 65-80 (2003).
10. Wei-Hung Su, Hongyu Liu, Karl Reichard, Shizhuo Yin, and Francis Yu, “Fabrication of digital sinusoidal gratings and precisely controlled flats and their applications to highly accurate projected fringe profilometory,” Optical Engineering, Vol. 42 (6), pp. 1730-1740, (2003).
11. Shizhuo Yin, Purwadi Purwosumarto, Weihong Su, and Claire Luo, Y. Sheng "An athermal hitless, tunable add-drop module with inherently integrated power controller," Microwave and Optics Technology Letter, Vol. 36, pp. 297-300 (2003).
12. Shizhuo Yin, Purwadi Purwosumarto, Zhuanyun Guo, and Fang Luo, "A polarization independent athermal electro-optic bulk modulator uisng a unique sandwich configuration," Microwave and Optics Technology Letter Vol. 36, pp. 157-160 (2003).
13. Shizhuo Yin, Tom Gardner, Tanu Thomas, Keith Kolanda, and Jiang Li, "Light scatter causes the grayness of detached retinas: implications for visual loss in retinal detachment," Archives of Ophthalmology, pp. 1002-1008, July, 2003.
14. Shizhuo Yin, Purwadi Purwosumarto, Weihung Su, and Claire Luo, "A highly integrable, compact, reliable, and low WDL fiber optic tap coupler," Microwave and Optics Technology Letter, Vol. 36, pp. 166-170 (2003).
15. Wei-Hung Su, Karl Reichard, and Hongyu Liu, and Shizhuo Yin, "Integration of segmented 3D profile measured by calibration-based phase-shifting projected fringe profilometry (PSPFP), Optics Memory and Neutral Networks, Vol. 12, No. 1, pp. 51-63 (2003).
16. S. Yin, K. Chung, and X. Zhu, “Highly sensitive long period grating based tunable filter using a unique double-cladding layer structure,” Optics Communications, v 188, pp. 301-305 (2001).
17. S. Yin, K. Chung, and Xin Zhu, “A novel all-optic tunable long-period grating using a unique double-cladding layer,” Optics Communications, v. 196, pp. 181-186 (2001).
18. K. Chung and S. Yin, “Analysis of random grating period and amplitude errors in ultra-thin long-period grating,” Microwave and Optical Technology Letters, Vol. 12, pp. 178-181 (2001).
19. K. Chung, S. Yin, and F. T. S. Yu, “An all-fiber variable attenuator using linearly chirped long-period grating and leaky mode coupling,” Optical Memory and Neural Networks, Vol. 10, pp. 67-71 (2001).
20. S. Yin, K. Chaung, H. Liu, P. Kurat, and K. Reichard, “New design for non-zero dispersion-shifted fiber (NZ-DSF) with a large effective area over 100 mm2 and low bending and splice loss,” Optics Communications, v 177, pp. 225-232 (2000).
21. S. Yin, Q. Zhang, K. Chung, C. Rui, L. Yu, “Investigation of the electro-optic properties of electron-irradiated poly(vinylidence fluoride-trifluoroethylene) copolymer,” Optical Engineering 39, pp. 670-672 (2000).
22. C. Chen, J. Fang, S. Yin, “Optimized synthetic aperture radar image detection with nonzero-order joint transform correlators,: Microwave and Optical Technology Letters, v 26, pp. 312-316 (2000).
23. Illumination-invariant face recognition using composite filters synthesized by simulated annealing,” D. Duarte and S. Yin, Optical Engineering, v39, pp.1252-1259 (2000).
24. M. Song, S. Yin, P. Ruffin, “Fiber Bragg grating strain sensor demodulation with quadrature sampling of a Mach-Zehnder interferometer4,” Applied Optics, v39, pp. 1106-1111, March (2000).
25. S. Yin, “Lithium niobate fibers and waveguides: fabrications and applications,” Proceedings of the IEEE, vol. 87, pp. 1962-1974, (1999).
26. S. Yin, “Fabrication of high-aspect-ratio submicron to nanometer range microstructures in LiNbO3 for the next generation of integrated optoelectronic devices by focused ion beams,” Microwave and Optical Technology Letters 22, pp. 396-398, (1999).
27. S. Yin, P. Purwosumarto, and F. Yu, “Application of fiber specklegram sensor to fine angular alignment,” Optics Communications, 170, pp. 15-21, (1999).
28. M. Song and S. Yin, “high resolution chirp measurement using quadrature sampling technique,” Microwave and Optical Technology Letters,” 23, pp. 335-337, (1999).
29. H. Liu*, G. Lu, S. Wu, S. Yin, F. Yu, “Speckle-induced phase error in laser-based phase shifting projected fringe profilometry,” J. Opt. Soc. Am. A, 16, pp. 1484-1495, (1999).
30. Shizhuo Yin, “Application of photorefractive fiber and waveguide gratings to fast speed narrow band tunable filters,” J. Nonlinear Optical Phys & Materials 8, pp.147-158 (1999).
31. S. Yin, J. Li*, and M. Song*, “Surface profile measurement using a unique microtube-based system,” Optics Communications, 168, pp. 1-6 (1999).
32. S. Yin, D. Duarte* and P. Purwosumarto*, “Design of rotation, illumination and texture invariant composite filters from range images using simulated annealing for face recognition,” Microwave and Optical Technology Letters 23, pp. 151-155 (1999).
33. S. Yin, A. Petrov, Yoshiji Suzuki, and Kazunori Shinoda, “Design and fabrication of LiNbO3 single crystal fiber array for enhancing the performance of microchannel plate spatial light modulator,” Optical Memory and Neural Networks, 2, pp. 155-160 (1998).
34. S. Yin, O. Leonov, F. Yu, V. Molotok, and V. Kludzin, “Design and fabrication of a 24-channel acousto-optic spatial light modulators,” Applied Optics 32, pp. 7482-7489 (1998).
35. S. Yin, Y. Wang, and A. V. Petrov, “Numerical simulation of a novel multichannel acousto-optic processor for a wideband adaptive radar system,” Microwave and Optical Technology Letters 19, pp. 398-405 (1998).
36. C. Li, J. Li, S. Yin, T. Hudson, D. McMillen, “Synthesize multi-level composite filter for synthetic aperture radar image identification,” Optics Communications, 146, pp. 285-301 (1998).
37. A. Petrov, S. Yin, and F. Yu, “Application of window theory to optimization of fiber Bragg gratings for wavelength-selectable antenna beam steering,” Microwave and Optical Technology Lett.17, pp. 161-164 (1998).
38.
F. T. S. Yu, C. Li, and S. Yin “Comparison of detection
efficiency for nonzero order and conventional joint transform correlator, Opt.
39. S. Y in and C . Li, “Synthesize a set of multilevel composite filters for 360 degree rotation invariant synthetic aperture radar image identification,” Optical Memory and Neural Networks, 7, pp. 51-62 (1998).
40.
C. Li, S. Yin, and F. Yu, “Nonzero-order joint
transform correlator,” Opt.
41. F. Yu, C. Li, and S. Yin, “Performance capacity of a simulated annealing bipolar composite filter (SABCF),” Optics Communications, 154, pp. 119-129 (1998).
42. F. Yu, S. Yin, and C. Li, “Shift-invariant limited photorefractive based correlators,” Optical Memory and Neural Networks, 2, pp. 127-134 (1998).
43. C. Li, S. Yin, and F. Yu, “High light efficiency nonzero-order joint transform correlator,” Optical Memory and Neural Network, 2, pp. 149-154 (1998).
44. A. Petrov, S. Yin, and F. T. S. Yu, “Optical adaptive beam forming with switched step size,” Microwave and optical Technology Lett., 15, pp. 16-20 (1997).
45. S. Yin and A. Petrov, “Enhancement of bipolar composite filter performance with convolutional code error control,” Optical Memory and Neural Networks,” 6, pp. 63-67 (1997).
46. S. Yin “Prototype promises kinder gentler test for heart disease” Design News, Page 15, March 4 (1996).
47. S. Yin, C. Chen, and J. Y. Cheung “Using optical particle image velocimetry for the non-destructive measurement of the single-cell contractile force,” Microwave and Optical Technology Letters, 13, pp. 31-35 (1996).
48.
C. Li, M. Lu, S. Yin, F. Yu, T. Hudson, and D.
McMillen, “ Performance of quantized composite filters in a joint transform
correlator,” Opt.
49. S. Yin, B. D. Guenther, and F. T. S. Yu, “A tunable narrow-band filter using a photorefractive fiber”, Optical Memory and Neural Networks, 5, p.35 (1996).
50. M. Lu, S. Yin, and F. Yu, “Fiber specklegram sensing with a phase-conjugate mirror,” Optical Memory and Neural Networks, 5, p. 43 (1996).
51. M. Lu, S. Yin, C. Chen, F. T. S. Yu, T. D. Hudson, and D. K. McMillen "Optimum synthesize of a bipolar composite filter with simulated annealing," Optical Engineering, 35, pp. 2710-2720 (1996).
52. S. Yin, G. Lu, J. Zhang, and F. T. S. Yu, "A kinoform based Nipkow disk for confocal microscope," Appl. Opt. 34, 5695 (1995).
53. Francis T. S. Yu, and S. Yin, "Bragg diffraction limited photorefractive (PR) crystal based correlators, " Optical Engineering, 34, 2224 (1995).
54.
S. Yin, M.
Lu, C. Chen, F. T. S. Yu, T. D.
55. Francis T. S. Yu, and Shizhuo Yin, "Photorefractive fiber hologram," Asian Journal of Physics, 4, 67 (1995).
56.
F. Yu, M. Lu, G. Lu, S. Yin, T. Hudson, D. McMillen, "Optimum target
detection using a spatial-domain bipolar composite filter with a joint
transform correlator," Opt.
57. F. T. S. Yu, J. Zhang, S. Yin, Z. Wu, D. McMillen, and T. Hudson, "Anomalies of photovoltaic current of doped LiNbO3 at 55 oC and 75 oC," Optical Engineering, 34, 2240 (1995).
58. F. T. S. Yu, J. Zhang, S. Yin, "Analysis of fiber specklegram sensor (FSS) using coupled-mode theory," Appl. Opt. 34, 3018 (1995)
59.
M. Wen, S. Yin, and Francis T. S. Yu, "Tunable
Interconnection Network Using a Thick Photorefractive (PR)
60. F. T. S. Yu, S. Yin, and C. M. Bang, " A content-addressable polychromatic neural net using a specially doped LiNbO3 photorefractive crystal," Opt. Commun. 107, P. 300 (1994).
61. F. T. S. Yu, C. M. Uang, and S. Yin, "Shift-and-rotation invariant interpattern associative (IPA) model," Opt. Commun. 104, P. 285 (1994).
62. C. Uang, Shizhuo Yin, and F. T. S. Yu, "Shift-invariant interpattern association neural network," Appl. Opt. 33, P. 2147 (1994).
63. F. T. S. Yu, S. Yin, and Z. H. Yang, "Thick volume photorefractive (PR) crystal wavelength-multiplexed reflection-type matched filter," Optical Memory and Neural Networks, 3, P. 207 (1994).
64. F. T. S. Yu, S. Yin, J. Zhang, and R. Guo, "Application of fiber speckle hologram to fiber sensing," Appl. Opt. 33, P. 5202 (1994).
65. F. T. S. Yu, M. Wen, S. Yin and C. Uang, " Submicron displacement sensing using inner-product multimode fiber speckle fields," Appl. Opt. 32, 4685 (1993).
66. Shizhuo Yin and Francis T. S. Yu, "Specially doped LiNbO3 crystal holography using a visible-light low-power laser diode," IEEE Photonics Technology Letters, 5, P. 581 (1993).
67. Francis T. S. Yu, C. M. Uang, and Shizhuo Yin, "Gray-level discrete associative memory," Appl. Opt. 32, P. 1322 (1993).
68. S. Yin, F. Zhao, H. Zhou, and J. Zhang, "Wavelength-multiplexed holographic construction using a Ce: Fe: doped LiNbO3 crystal with a tunable visible-light diode laser," Opt. Commun. 101, 317 (1993).
69. M. Wen, S. Yin, P. Purwadi, and Francis T. S. Yu, " Wavelet matched filtering using a photorefractive crystal," Opt. Commun. 99, 325 (1993).
70. Francis T. S. Yu, Shizhuo Yin, and Paul B. Ruffin, " Application of Hadamard transform to fiber-optic smart-skin sensing," Microwave and optical technology letters 6, 632 (1993).
71. Lu Cheng, Shizhuo Yin, and Francis T. S. Yu, "Application of core-ring-intensity-ratio to fiber specklegram sensing," Opt. Commun. 97, 327 (1993).
72. F. T. S. Yu, F. Zhao, H. Zhou, and S. Yin, " Cross-talk noise in a wavelength-multiplexed reflection-type photorefractive hologram," Opt. Lett. 18, 1849 (1993).
73. F. Zhao, H. Zhou, S. Yin, and F. T. S. Yu, "Wavelength- multiplexed holographic storage by using the minimum wavelength channel separation in a photorefractive crystal fiber, Opt. Commun. 103, 59 (1993).
74. F. T. S. Yu, S. Yin, and A. Bhalla, "Wavelength-multiplexed holographic construction using a Ce: Fe: doped PR fiber with a tunable visible-light laser diode," IEEE Photo. Tech. Lett., 5, 1230 (1993)
75. Shudong Wu, Shizhuo Yin, Sumati Rajan, and Francis T. S. Yu, "Multichannel sensing with fiber specklegrams," Appl. Opt. 31, P. 5975(1992).
76. Francis T. S. Yu and Shizhuo Yin, " Holographic storage and interconnection using a ( Ce: Fe: doped LiNbO3) photorefractive crystal fiber with a tunable visible-light diode laser," Optical Memory and Neural Networks, 1, P. 289 (1992).
77. Shizhuo Yin, Francis T. S. Yu, and Shudong Wu, "Optical monitoring for plasma-etching depth process," IEEE photonics letter, 4, P. 894(1992).
78. Francis T. S. Yu and Shizhuo Yin, " Applications of photorefractive crystals to signal processing,"(invited paper) International Journal of Optical Computing 2, 143 (1991).
79. Shudong Wu, Shizhuo Yin, and Francis T. S. Yu, "Sensing with specklegram," Appl. Opt. 30, P. 4468 (1991).
80. Francis T. S. Yu, Xiangyang Yang, Shizhuo Yin, and Don. A. Gregory," Mirror-array optical interconnected neural network," Opt. Lett. 16, P. 1602 (1991).
81. Shizhuo Yin, Lu Cheng, and Guguang Mu, "3-D target recognition by serial-code-filters," Optik, 82, P. 129 (1989).
1. K. Shi, P. Li, S. Yin, and Z. Liu “Surface profile measurement using chromatic confocal microscopy,” SPIE 5606-19, Philadelphia, PA, Oct. 27, 2004.
2. W. Su, Y. Hsu, C. Kuo, H. Chan, and S. Yin, “Design and fabrication of digital dual-freuqnecy patterns for projected fringe profilometry, SPIE 5606-20, Philadelphia, PA, Oct. 27, 2004.
3.
S. Yin, B. Wang, C. Luo, Q.
Wang, K. Reichard, and D. Lysak,
“Development of harsh environment electro-optic polymer and their applications
to tunable photonic devices,” IEEE LEOS Summer Topic meeting on Optical
Interconnects & VLSI Photonics, MB4.2,
4.
5.
B. Wang, C. Hahn, J. Lee, K. Reichard,
D. Ditto, D. Glista, Q. Wang, and S. Yin, “Harsh
environment electro-optic polymer and its application to in-fiber tunable
filter,” SPIE 5560-7, Denver, CO, Aug., 2004.
6.
C. Zhan, J. Wu, X. Jiang, and
S. Yin, “Electro-optic and piezoelectric effect of PMN-PT under strong AC
field,” SPIE 5560-14,
7. Y. Liu, Y. Yang, B. Wang, Y. Fu, S. Yin, and F. Yu, “Photorefractive-based adaptive optical windows,” SPIE 5560-36, Denver, CO, Aug., 2004.
8.
B. Wang, Y. Yang, Y. Liu, S. Yin, R. Guo, P. Ruffin, “Fiber optic sensors using photonic crystal
fiber embedded heterofiber structures,” SPIE 5560-37,
Denver, CO, Aug., 2004.
9.
K. Reichard, S. Yin, C. Hahn,
J. Lee, B. Wang and Q. Wang, “An athermal design for
an all-fiber, ultra fast, widely tunable wavelength filter,” Avionics,
Fiber-Optics and Photonics Workshop, Workshop Notes, ThP15, St. Louis Marriott
Downtown, St. Louis, MO, 21-23 April 2004.
10.
S. Yin, S. Nam, P. Ruffin, K. Reichard,
“An investigation of a photonic bandgap based
gyroscope and its application to Avionics, Avionics, Fiber-Optics and Photonics
Workshop, Workshop Notes, ThP17, St. Louis Marriott Downtown, St. Louis, MO,
21-23 April 2004.
11.
12.
Stuart (Shizhuo) Yin, Xueqian Zhang*, Joe Cheung*, Juntao
Wu, Chun Zhan, and Jinchao Xue+,
“Non-contact, minimum invasive technique for the assessment of mechanical
properties of single cardiac myocyte via magnetic
field loading,” SPIE 5319, pp.25-31,
13.
Shizhuo Yin, Thomas
W. Gardner*, Fei Wu and Milind
Cholker, “Optical combing to align photoreceptors in
detached retinas,” SPIE 5314, pp.298-305,
14.
Yi Yang, KunWook Chung, Shizhuo Yin, Karl Reichard*, Zhiwen Liu, and Qing Wang+, “Highly sensitive sensors
using in-fiber gratings fabricated in photonic crystal nanostructures,” SPIE
5360, pp.237-246,
15.
Shizhuo Yin,
16.
Yin, Zhiwen Liu, Iam-Choon Khoo, Kun-Wook Chung, and Yi Yang, “Tunable photonic crystal fibers
and their applications,” American Ceramic Society Meeting on Optical
Waveguides: Unconventional Approaches and Applications, Oct, Corning, NY, 2003.
17.
Shizhuo Yin, Juntao Wu, Chun Zhan, and Claire Luo,
“Giant electro-optic effect of PMN-33%PT single crystals under proper AC
electric field bias,” SPIE 5206, pp. 280-289, San Diego, CA, Aug., 2003.
18.
Sung Hyun
19.
Shizhuo Yin, Purwadi Purwosumarto, Wei-Hung Su, and Fang Luo, “An
ultra compact highly reliable all solid state photopolarimeter,”
SPIE 4989, pp.12-21,
20.
Shizhuo Yin+,
Purwadi Purwosumarto, Zhuanyun Guo, and Fang Luo*, “A Polarization Independent Athermal Design for Electro-Optic Modulators and Variable
Optical Attenuators,” SPIE 4989, pp.22-29,
21. Shizhuo Yin, Purwadi Purwasumarto, Weihung Su, "Application of volume hologram to tunable DWDM filters," SPIE Photonics Asia 2002, SPIE Vol. 4929-94., Shanghai, China, Oct., 2002.
22.
Tom Gardner, Shizhuo Yin,Tanu Thomas, Keith Kolanda,
and Jiang Li, "Light scatter causes the grayness of detached retinas:
implications for visual loss in retinal detachment," Association for
Research in Vision and Ophthalmology, Ft
23. S. Yin, X. Zhu, K. Chung, “All-fiber all-optic tunable filter based on the combination of long period grating and photorefractive cladding layer,” SPIE 4110, pp. 190-194 (2000).
24.
S. Yin, K. Reichard et al “Wavelength tuning range
enhanced single resonant band fiber filter using a long period grating (LPG)
with ultra thin cladding layer,” OFC 2000, at
25. F. Yu, S. Yin, and C. Li, “Composite filter capacity for a JTC,” SPIE 4043, pp. 108-116 (2000).
26.
S. Yin, R. Yang*, F. Yu, Y. Suzuki, K. Shinoda,
“Advances on the fabrication of microchannel plate spatial light modulator,” Proceedings
of SPIE on Photorefracitve Fiber and
27. S. Yin, “High aspect ratio submicron microstructures in LiNbO3: fabrication and potential applications to photonic devices,” to be published in the Proceedings of SPIE on Photonic Devices and Algorithms for Computing, SPIE 3805 (1999). (Invited paper)
28. S. Yin, P. Purwasomarto*, T. Lu “Development of a real-time one-step 3D camera for the inspection of surfaces of automotive industry,” Proceedings of 32nd International Symposium on Automotive Technology and Automation (1999).
29.
M. Song, S. Yin, and P. Ruffin, “Application of
time-domain phase-shifting technique to fiber-optic sensors,” Proceedings of
Optical Society of America Annual Meeting,
30.
H. Liu, B. Bard, F. Wu,
31.
S. Yin, P. Purwardi, and Jiang Li, “Fabrication of high
aspect ratio submicron to nanometer range microstructures in LiNbO3 using
focused ion beams,” Proceedings of Optical Society of America Annual Meeting,
32. S. Yin, D. Duarte, and P. Purwosumarto, “Design of rotation, illumination, and texture invariant composite filters from range images using simulated annealing,” Proceedings of Optical Society of America Annual Meeting, Santa Clara, California. (1999)
33.
K. Chung and S. Yin, “An investigation on the influence
of alpha value to the performance of non-zero dispersion shifted large
effective core area fiber,” Proceedings of Optical Society of America Annual
Meeting,
34. S. Yin, “Intra-chip optical interconnects based on a wavelength multiplexed two layer structure,” SPIE, 3470, pp. 128-136 (1998).
35. S. Yin and J. Choe, “Investigating a new type of Bragg grating as applied to fiber optic true time delay line with sub pico-second resolution,” SPIE 3463, pp. 70-75 (1998).
36. S. Yin, A. Petrov, O. Leonov, and R. Yang, “Progress on developing an optical adaptive processor based on multichannel architecture,” SPIE 3463, pp. 148-157 (1998).
37. C. Chen, S. Yin, J. Li, F. Yu, J. Cheung, X. Zhang, and X. Lei, “Use of a fiber glass optical system to measure the contractile characteristics of a single isolated muscle cell,” Proceedings of OII’98, Topical Meeting of the international commission for optics (Optics for Information Infrastructure), pp. 287-289 (1998).
38. S. Yin, “3-D rotation invariant SAR image identification by using multi-level composite filter synthesized by SA,” Proceedings of OII’98, Topical Meeting of the international commission for optics (Optics for Information Infrastructure), pp. 184-186 (1998). (Invited)
39. J. Zhang, M. Song, S. Yin, and F. Yu, “Experimental investigation of distributed fiber sensor based on tunable light source,” Proceedings of Optical Society of America Annual Meeting’98, MT6, p. 65, Baltimore, Maryland (1998).
40. S. Yin, T. Gardner, J. Li, D. Gardner, “A scott type model for analyzing the influence of retina detachment on vision,” Proceedings of Optical Society of America Annual Meeting’98, MCC27, p. 72, Baltimore, Maryland (1998).
41. S. Yin, D. Duarte, P. Purwosumarto, and T. Lu, “Design of three-dimensional composite filters for robust face recognition,” Proceedings of Optical Society of America Annual Meeting’98, TuH4, p. 78, Baltimore, Maryland (1998).
42.
S. Yin, “Adaptive optical processors for RF signals,”
Proceedings of Optical Society of America Annual Meeting’98, WGG4, p111,
43. S. Yin, J. Li, and M. Song, “A unique surface roughness measurement system based on microtube and microlenslet array,” Proceedings of Optical Society of America Annual Meeting’98, ThJ3, p. 123, Baltimore, Maryland (1998).
44. S. Yin, J. Zhang, J. Li, W. Su, K. Chung, and F. Yu, “Design and implementation of LiNbO3 crystal fiber based tunable filter with multiple 45o Bragg gratings,” Proceedings of Optical Society of America Annual Meeting’98, ThNN10, p. 139, Baltimore, Maryland (1998).
45. S. Yin, C. Li, and F. Yu, “Design and implementation of multilevel composite filter for synthetic aperture radar image identification,” Proceedings of Optical Society of America Annual Meeting’98, ThSS3, p. 145, Baltimore, Maryland (1998).
46. O. Leonov, R. Yang, F. Yu, S. Yin, V. Molotok, and V. Kludzin, “Design and fabrication of a novel low interchannel cross talk 24-channel acousto-optic modulator,” Proceedings of Optical Society of America Annual Meeting’98, FW5, p. 163, Baltimore, Maryland (1998).
47.
S. Yin, J. Zhang, F. T. S. Yu,
48. A. Petrov, S. Yin, F. T. S. Yu, and O. Leonov, “Fabrication of LiNbO3 single crystal fiber array for wideband antenna signal processing,” SPIE, 3137, pp. 183-202 (1997).
49. D. McMillen, T. Hudson, J. Wagner, J. Singleton, S. Yin, Y. Wang, F. T. S. Yu, “Analysis of twelve specially doped lithium niobate crystals,” SPIE, 3137, pp. 39-49 (1997).
50. F. Yu, S. Yin, O. Leonov, A. Petrov, and Y. Wang, “All-optic adaptive radar processor: performance enhancement by using of multi-channel AO cells,” Proceedings of Optical Society of America Annual Meeting’97, TuII3, p. 103, Long Beach, California (1997).
51. S. Yin, J. Li, J. Liu, and F. Yu, “A novel optical processor for mammography,” Proceedings of Optical Society of America Annual Meeting’97, TuTT2, p. 107, Long Beach, California (1997).
52. S. Yin, F. Yu, Y. Wang, A. Petrov, and O. Leonov, “Numerical simulation of wideband multichannel optical processor for adaptive antenna system,” Proceedings of Optical Society of America Annual Meeting’97, TuXX3, p. 109, Long Beach, California (1997).
53. A. Petrov, S. Yin, F. Yu, O. Leonov, and Y. Wang, “Fabrication of lithium niobate single crystal fiber array for wideband antenna signal processing,” Proceedings of Optical Society of America Annual Meeting’97, WFF55, p. 133, Long Beach, California (1997).
54. S. Yin, F. Yu, Y. Wang, and Y. Sun, “A reconfigurable electro-optics zoom lens with liquid crystal television,” Proceedings of Optical Society of America Annual Meeting’97, WFF57, p. 134, Long Beach, California (1997).
55. C. Chen, S. Yin, F. Yu, X. Zhang, J. Cheung, “Novel microelectromechanical fiber glass system to quantify contractile characteristics of isolated cardiac muscle cells,” Proceedings of Optical Society of America Annual Meeting’97, WRR4, p. 139, Long Beach, California (1997).
56. C. Chen, S. Yin, F. Yu, X. Zhang, J. Cheung, “Use of fluid dynamics analysis package (FIDAP) to quantify contractile forces from a single heart cell,” Proceedings of Optical Society of America Annual Meeting’97, ThFF3, p. 154, Long Beach, California (1997).
57. S. Yin, “Fabrication of LiNbO3 photorefractive single crystal fibers and their applications” (Invited paper), SPIE 2849 , pp. 156-167 (1996).
58. S. Yin, “Photorefractive fiber hologram,” SPIE 2849 , pp. 586-591 (1996).
59. Shizhuo Yin and Alex Petrov, “Application of convolutional error control to bipolar composite filter,” Proceedings of Optical Society of America Annual Meeting’96, TuJJ5, p. 120, Rochester, NY. (1996).
60. C. Chen, S. Yin, F. Yu, and J. Cheung “Application of fluid dynamics analysis package to analyze micro-fluid velocity field induced by single cell contraction,” Proceedings of Optical Society of America Annual Meeting’96, WGG72, p. 154, Rochester, NY. (1996).
61. F. Yu, S. Yin, O. Leonov, A. Petrov, “All-optic adaptive radar processor: performance limitations and enhancement,” Proceedings of Optical Society of America Annual Meeting’96, MZ1, p. 81, Rochester, NY. (1996).
62. A. Petrov, F. Yu, and S. Yin, “Optimization of fiber Bragg grating profile for antenna applications,” Proceedings of Optical Society of America Annual Meeting’96, ThA3, p. 161, Rochester, NY. (1996).
63.
J. Zhang, F. Yu, and S. Yin, “Study of photorefractive
tunable filter,” Proceedings of Optical Society of America Annual Meeting’96, ThQ3,
p. 169,
64. C. Li, M. Lu, S. Yin, K. Ko, F. Yu, T. Hudson, and D. McMillen, “Performance of multilevel composite filter with a joint transform correlator,” Proceedings of Optical Society of America Annual Meeting’96, ThY3, p. 173, Rochester, NY. (1996).
65. T. Hudson, D. McMillen, A. Kransteuber, F. Yu, and S. Yin, “Angle-multiplexed composite filter holograms for out-of-plane rotation invariant pattern recognition,” Proceedings of Optical Society of America Annual Meeting’96, Thkk5, p. 179, Rochester, NY. (1996).
66. S. Yin, B. Guenther, and F. T. S. Yu, “Narrow-band filter using multiple photorefractive gratings,” SPIE, 2529, pp. 196-201 (1995).
67. M. Lu, S. Yin, and F. T. S. Yu, “Fiber specklegram sensing with phase conjugation,” SPIE, 2529, pp. 208-216 (1995).
68. S. Jutamulia, S. Yin, F. T. S. Yu, J. Cheung, and H. Darmawan, “Analysis on holographic endoscopes,” SPIE, 2529, pp. 268-273 (1995).
69. T. Hudson, D. McMillen, A. Kransteuber, S. Yin, M. Lu, F. T. S. Yu, “Rotation invariant bipolar filter design for object classification,” SPIE, 2529, pp. 274-284 (1995).
70. S. Yin, C. Chen, J. Cheung, and F. Yu, "Nondestructive measurement for single cell contractile force," Proceedings of Optical Society of America Annual Meeting, ThDD7, p. 151, Portland, Oregon (1995).
71. F. Yu, P. Purwosumarto, and S. Yin, "The effect of positioning error on holographic memory retrieval in photorefractive crystal disk," Proceedings of Optical Society of America Annual Meeting, MEE5, p. 57, Portland, Oregon (1995).
72. F. Yu, M. Lu, and S. Yin, "Improvement of the microchannel spatial light modulator with the crystal waveguide array," Proceedings of Optical Society of America Annual Meeting, WFF5, p. 111, Portland, Oregon (1995).
73. F. Yu, A. Petrov, and S. Yin, "Speed/Signal-to-interference-plus-noise ratio tradeoff in optical adaptive processor," Proceedings of Optical Society of America Annual Meeting, WVV42, p. 127, Portland, Oregon (1995).
74. F. T. S. Yu, G. Lu, C. Uang, S. Yin, and Z. Wu, “A unipolar shift-invariant associative Hamming Net,” SPIE, 2237, pp. 294-301 (1994).
75. F. T. S. Yu, S. Yin, and Z. Hang, “Thick volume photorefractive crystal wavelength-multiplexed reflection-type matched filter,” SPIE, 2237, pp. 360-371 (1994).
76. F. Yu, S. Yin, B. Guenther, "High SNR filter using volume holographic grating and the Hamming window," Proceedings of Optical Society of America Annual Meeting, MKK5, p. 71, Dallas, Texas (1994).
77. F. Yu, J. Zhang, S. Yin, and P. Ruffin, "A novel distributed fiber sensor based on the Fourier spectrometer technique," Proceedings of Optical Society of America Annual Meeting, MA1, p. 50, Dallas, Texas (1994).
78. F. Yu, C. Chen, M. Lu, S. Yin, T. Hudson, D. McMillen, "Noise performance on the 3D rotation-invariant bipolar filters," Proceedings of Optical Society of America Annual Meeting, ThS5, p. 157, Dallas, Texas (1994).
79. F. Yu, J. Newman, S. Yin, J. Zhang, "An all-optic adaptive notch filter," Proceedings of Optical Society of America Annual Meeting, WWW 14, p. 140, Dallas, Texas (1994).
80. F. Yu, S. Yin, G. Lu, J. Zhang, J. Mait, "Diffractive optics based Nipkow disk for real-time confocal microscope," Proceedings of Optical Society of America Annual Meeting, ThH4, Dallas, Texas (1994).
81. F. Yu, P. Pursowumarto, S. Yin, "Target tracking with a photorefractive disc," Proceedings of Optical Society of America Annual Meeting, ThS4, p. 157, Dallas, Texas (1994).
82. F. Yu and S. Yin, “Specially doped (Ce:Fe:) LiNbO3 based crystal holography,” SPIE, 2051, pp. 342-345 (1993).
83.