1.
K.
Kodate, T. Kamiya, H. Tanaka, and H. Yanai, “Analysis of Two-Dimensional
Etching Effect on the Profiles of Fine Holographic Grating Made of Positive
Photoresist Az2400,” 9th Conference on Solid State Devices, 37-38 (1977).
2.
K.
Kodate and H. Takenaka, “Measurement of mechanical deformation of dielectric
fibers by a light scattering method,” Preprints of Symposium a Polymer for
Optical Fiber Systems, 45-46 (1979).
3.
K.
Kodate, H. Takenaka, and T. Kamiya, “Fabrication of high numerical aperture
zone plates using deep ultraviolet lithography,” The 4th Topical Meeting on
Gradient Index Optical Imaging Systems, 188-189 (1984).
4.
K.
Kodate, H. Tunekawa, and T. Kamiya, “Analysis of High Diffraxtion- Eficiency-
Phase-Grating at Non-Bragg Conditions,” 13th Congress of the Imternational
Commission for Optics, 522-523 (1984).
5.
K.
Kodate, Y. Okada, and T. Kamiya, “Fabrication of High Efficiency Grating
Devices using Deep Ultraviolet Lithography,” 16th Symposium on Ion Implantation
and Submicron Fabrication, 205-208 (1984).
6.
K.
Kodate, T. Kamiya, and Y. Okada, “Focusing Characteristics of High Efficiency
Fresnel Zone Plate Fabricated by Deep ultraviolet Lithography,” Conference on
Laser and Electro-Optics, 101-103 (1985).
7.
K.
Kodate, Y. Okada, and T. Kamiya, “Zone Plate for a Beam Splitter using
Submicron Lithography,” 17th Symposium on Ion Implantation and Submicron
Fabrication, 93-96 (1986).
8.
K.
Kodate, Y. Okada, T. Iida, and T. Kamiya, “Composite Zone Plate Elements for
Opto-Electronic Integrated Circuits,” Technical Digest of First Optoelectronics
Conference, 66-67 (1986).
9.
Y.
Okada, K. Kodate, J. L. Chen, and T. Kamiya, “Design and Fabrication of
Composite Zone Plate for Opto-Electronic Integrated Circuits,” Technical Digest
of the 18th Symposium on Ion Implantation and Submicron Fabrication, 177-180
(1987).
10.
F.
Kimura, S. Izawa, S. Takahashi, Y. Okada, K. Kodate, and T. Kamiya, “Low
Bit-Error-Rate Optical Read-Only Memory Card Reader,” 14th Congress of
International Commission for Optics, Optics and the Information Age, 415-416
(1987).
11.
Y.
Okada, K. Kodate, and T. Kamiya, “Fiber-Optic Delay Circuit Using Micro-Fresnel
Zone Plates,” Technical Digest of the 1st Microoptics Conference (MOC) ’87,
146-149 (1987).
12.
E.
Tokunaga, K. Kodate, J. L. Chen, and T. Kamiya, “Spatially Divided Beam
Splitter with Obliquely Incident Configuration for Optical Circuits,” 20th
Symposium on Ion Implantation and Submicron Fabrication, 81-84 (1989).
13.
K.
Kodate,
14.
K.
Kodate, J. L. Chen, and T. Kamiya, “Multiple Beam Elements Using Linear Zone
Plate Array Suitable for Parallel Optoelectronic Computing,” Conference Record
of Optical Computing, 248-285 (1990).
15.
K.
Kodate, J. L. Chen, and T. Kamiya, “Two-Dimensional Beam Splitter Functioned by
the Combination of Fresnel Zone Plate Array,” 15th Congress of International
Commission for Optics, 181 (1990).
16.
K.
Sato, F. Kimura, S. Izawa,
17.
K.
Kodate, “Fabrication of High Efficiency Crating Elements for a Fiber-Optical
Delay Unit,” 15th Seminar on Science and Technology Symposium for Precision
Measurements, 75-88 (1990).
18.
K.
Kodate and T. Kamiya, “Multiple beam accessor using micro-zone plate elements
for opto-electronic integrated circuits,” International Conference on the
Application and Theory of Periodic Structures, 1545, 251-260 (1991).
19.
K.
Kodate, M. Abe, M. Kariya, and T. Kamiya, “Multiple Beam Generator Using Zone
Plate Array Considering Intensity Distribution of Gaussian Beam,” ICO Topical
Meeting on optical Computing, 1806, 219-227 (1992).
20.
K.
Kodate, N. Murakami, K. Siratori, and T. Kamiya, “Zone plate array generating
uniform spots for optical parallel proceeding,” 16th congress of the
international commission for optics, 1993, 413-414 (1993).
21.
K.
Ogawa, N. Hashimoto Y. ito, S. Morokawa, and K. Kodate, “Real-Time Joint
Transform Correlator Using A Zone Plate Array and A Liquid Crystal Television
Spatial Light Modulator,” 4th Microoptics conference (MOC) and the 11th topical
meeting on gradient-index optical systems, 206-209 (1993).
22.
Y.
Ito, C. Hiraide, N. Hashimoto, K. Ogawa, S. Morokawa, and K. Kodate,
“Application of high-resolution active-matrix liquid crystal light modulators
to parallel optical processing,” Liquid Crystal Materials, Devices, and
Applications, 2175, 194-207 (1994).
23.
W.
Klaus, N. Hashimoto, K. Kodate, and T. Kamiya, “Fast and Accurate Phase
Retardation Measurement of 0° Twisted Nematic Liquid Crystal Panels Based on
the Principle of Homodyne Reciving,” Frontiers in Information Optics Topical
Meeting of the International Commission for Optics, 6B2-1, 153 (1994).
24.
K.
Kodate, W. Klaus, M. Kanamori, S. Morokawa, and T. Kamiya, “Theoretical and
Experimental Evaluation of Array Illuminators for Large Aperture Phase-only
Spatial Light Modulators,” International Conference on Applications of optical
Holography, 2577-29 (1995).
25.
K.
Miyazawa, K. Kodate, and T. Kamiya, “Soft X-ray Emission from the Rear Side of
the Foil Target,” The
26.
Y.
Ohya, R. Thapliya, K. Kodate, and T. Kamiya, “Preliminary Experiments for an
Optical Face Recognition System,” 1996 International Opical on Coputing, OWC53,
204-205 (1996).
27.
R.
Thapliya, K. Kodate, M. Tsuchiya, and T. Kamiya, “Character Recognition of
Sanskrit Scripts using joint transform correlator,” 1996 International Opical
on Coputing, OThB4, 246-247 (1996).
28.
W.
Klaus, Y. Hamaguchi, K. Kodate, and Y. Arimoto, “Theoretical and experimental
evaluation of waveguide Talbot array illuminators,” Diffractive and Holographic
Device Technologies and Applications IV, 3010, 38-48 (1997).
29.
W.
Klaus, Y. Hamaguchi, and K. Kodate, “Novel phase grating for Talbot array
Illuminators,” The Conference on Diffractive and Holographic Device
Technologies and Applications IV, 117 (1997).
30.
K.
Kodate, A. Hashimoto, Y.T akahashi, R. Thapliya, and T. Kamiya, “Parallel
facial recognition system based on optical joint transform correlator,”
Conference on Lasers and Electro-Optics (CLEO) 1997, 276 (1997).
31.
R.
Thapliya, A. Hashimoto, K. Kodate, M. Tsuchiya, and T. Kamiya, “Parallel
optical processing applied to character recognition,” Conference on Lasers and
Electro-Optics (CLEO) 1997, 310-311 (1997).
32.
W.
Klaus, Y. Arimoto, and K. Kodate, “Novel Talbot array illuminators and their
application,” Diffractive Optics ’97, 228-229 (1997).
33.
Y.
Tomiyama, W. Klaus, A. Okazaki, and K. Kodate, “Array illuminators based on
diffractive optics-Talbot plate or binary lens array: a comparison,” 3rd
Microoptics Conference (MOC) ’97, 216-220 (1997).
34.
A.
Hashimoto, K. Koda, K. Kodate, R. Thapliya, and T. Kamiya, “Binary Zone Plate
Array for Parallel Joint Transform Correlator System: Design and Evaluation,”
OSA Summer Topical Meetings Conference, Diffractive Optics and Micro-Optics,
10, DTuD17-1, 155-157 (1998).
35.
W.
Klaus and K. Kodate, “Talbot array illuminators for high intensity compression
ratios,” OSA Summer Topical Meetings Conference, Diffractive Optics and
Micro-Optics, JWC3-1, 219-221 (1998).
36.
R.
Inaba, A. Hashimoto, and K. Kodate, “Discrimination of Portraits using hybrid
parallel Joint Transform Correlator system,” International Council on
Nanotechnology (ICOSN) 1999, 529-532 (1999).
37.
W.
Klaus, A. Okazaki, H. Suzuki, T. Nakayama, and K. Kodate, “Diffractive
near-field array generators,” International Conference Optics (ICO) 1999,
564-565 (1999).
38.
W.
Klaus, H. Suzuki, and K. Kodate, “Efficiency evaluation of high-compression
Talbot Array Illuminators,” Diffractive Optics ’99, 176-177 (1999).
39.
R.
Inaba, N. Kawakami, K. Oguma, E. Watanabe, and K. Kodate, “Compact Parallel
Joint Transform Correlator for Facial Recognition,” Diffractive Optics and
Micro-Optics 2000, 4089, 384-387 (2000).
40.
K.
Kodate, Y. Orihara, and W. Klaus, “Towards the optimal design of binary optical
elements with different phase levels using a method of phase mismatch
correction,” Diffractive Optics and Micro-Optics 2000, 174-176 (2000).
41.
R.
Hainberger, Y. Komai, W. Klaus, K. Kodate, and T. Kamiya, “All-optical modules
for compact free-space laser link transceivers,” Conference on Lasers and
Electro-Optics Europe 2000, CTuK100, 136 (2000).
42.
K.
43.
W.
Klaus and K. Kodate, “Exploiting the near field with Talbot,” International
Conference on Optics-photonics Design & Fabrication (ODF) 2000, 97-99
(2000).
44.
K.
Oka, K. Kodate,
45.
K.
Kodate,
46.
T.
Kamiya, Y. Komai, K. Kodate, and R. Hainberger, “All-optical switching module
based on diffractive optics technology,” Micro- and nano-optics for optical
interconnection and information processing, 4455, 79-87 (2001).
47.
T.
Kamiya, Y. Komai, K. Kodate, R. Hainberger, K. Igarashi, and M. Tsuchiya,
“All-optical switching module suitable for noise-suppressed detection of pulse
position modulated codes,” Conference on Lasers and Electro-Optics and the XIth
European Quantum Electronics Conference (CLEO/QELS) 2001, 316 (2001).
48.
R.
Inaba, Y. Yaginuma, and K. Kodate, “Application of the Optical Face Recognition
System to the E-Learning,” 19th Congress of the International Commission for
Optics, 4829, 35-36 (2001).
49.
Y.
Komai, K. Kodate, and T. Kamiya, “Free-Space Optical Platform Design
Consideration for All-Optical TDM Switch Array,” Conference on Lasers and
Electro-Optics (CLEO) 2001, 2, 248-249 (2001).
50.
E.
Watanabe, R. Inaba,
51.
W.
Klaus, M. Fujino, and K. Kodate, “Optimization of absorbing boundaries for RCWA
calculations of aperiodic structures,” European Optical Society Topical Meeting
on Diffractive Optics Budapest, 22-23 (2001).
52.
Y.
Komai, K. Kodate, R. Hainberger, and T. Kamiya, “Usage of Binary Optical
Elements in Ultrafast All-optical Switching Modules and Their Applications to
Novel Photonic Systems,” 7th Microoptics Conference (MOC) ’01, 214-217 (2001).
53.
N.
Kawakami, K. Shimizu, N. Wada, W. Chujo, and K. Kodate, “Research on
Holographic Address Processing Based on Time-to-Space Conversion with 100km
Fiber Transmission,” Technical Digest of CPT2002, 123-124 (2002).
54.
Y.
Komai, K. Oka, W. Klaus, and K. Kodate, “Numerical Analysis of Micro Hybrid Multi-level
Zone Plates using Electromagnetic and Scalar Methods,” Conference Digest of
International Conference on Optical MEMS, 71-72 (2002).
55.
N.
Ebizuka, K. Oka, A. Yamada, M. Watanabe, K. Shimizu, K. Kodate, M. Kawabata, T.
Teranishi, K. Kawabata, and M. Iye, “Development of Volume Phase Holographic
(VPH) Grism for Visible to Near Infrared Instruments of the 8.2m Subaru
Telescope,” Astronomical Telescopes and Instrumentation, 4842, 319-328 (2002).
56.
E.
Watanabe and K. Kodate, “Multi-light source Compact Optical Parallel Correlator
(MLCOPaC) for facial recognition using VCSEL array,” 19th Congress of the
International Commission for Optics, 4829, 235-236 (2002).
57.
K.
Shimizu, N. Kawakami, N. Wada, H. Chujo, and K. Kodate, “Label processing for
photonic network with angular-multiplexed spectral hologram,” 19th Congress of
the International Commission for Optics, 4829, 563-564 (2002).
58.
K.
Oka, W. Klaus, M. Fujino, M. Watanabe, N. Ebizuka, and K. Kodate, “Rigorous
Analysis of Volume Phase Holographic Grism for Astronomical Observations,” 19th
Congress of the International Commission for Optics, 4829, 565-566 (2002).
59.
K.
Shimizu, E. Watanabe, Y. kazaki, Y. Takayama, and K. Kodate, “Improvement of
the optical multiplexed holographic recording method on the SBN- The examination of
all optical face recognition system-,” 3rd International Conference on Optics-photonics Design &
Fabrication (ODF) 2002, 155-156 (2002).
60.
E.
Watanabe, R. Inaba, and K. Kodate, “Practical Application of Compact Optical
Face Recognition Correlator using VCSEL array to e-Learning Security,” 3rd
International Conference on Optics-photonics Design & Fabrication (ODF)
2002, 183-184 (2002).
61.
A.
Yamada, K. Oka, Y. Komai, E. Watanabe, N. Ebizuka, T. Teranishi, M. Kawabata,
and K. Kodate, “Optimization of a Volume Phase Holographic Grism for
Astronomical Observation using the Photopolymer,” 15th Annual Symposium
Electronic Imaging Science and Technology, 5005, 8-19 (2003).
62.
E.
Watanabe,
63.
Y.
Komai, H. Watanabe, K .Kodate, N. Wada, and F. Kubota, “Fourier Synthesis-based
Variable Rate Pulse Trains Generation Using Phase and Attenuation Tunable
High-resolution Array Waveguide Grating,” Optics in Engineering OIE 2003
(2003).
64.
N.
Wada, F. Kubota, H. Watanabe, Y. Komai, and K. Kodate, “Arrayed Wave-guide
Grating based optical pulse synthesizer and its application to photonic
network,” Optics in Engineering OIE 2003 (2003).
65.
K.
Oka,
66.
A.
Yamada, K. Oka, M. Ishikawa, M. Kashiwagi, K. Kodate, N. Ebizuka, and T.
Teranishi “Development of High-Performance Volume Phase Holographic Grism for
Spectroscopic Observation for the Subaru Telescope,” Diffractive Optics 2003
(2003).
67.
68.
Y.
Okazaki, Y. Takayama, E. Watanabe, K. Oka, T. Aruga, and K. Kodate, “Optical
multiplex holographic storage using Multimode Optical Fiber bundle,” Frontiers
in Optics the 87th OSA Annual Meeting Laser Science XIX (2003).
69.
Y.
Komai, K. Kodate, K. Okamoto, and T. Kamiya, “Novel Application of Arrayed
Waveguide Grating to Compact Planar Spectroscopic Sensors,” 9th Microoptics
Conference (MOC) ’03, 380-383 (2003).
70.
E.
Watanabe and K. Kodate, “Ultra-Fast Facial Recognition System based on Vander
Lugt Correlator,” 9th Microoptics Conference (MOC) ’03 (2003).
71.
Y.
Okazaki, Y. Takayama, E. Watanabe, and K. Kodate, “Optical reproduction of a
series of images by a simple hologram multiplexing method of rotating a fiber
bundle,” International Symposium on Optical Memory (ISOM) 2003, 278-279 (2003).
72.
K.
Oka, N. Ebizuka, and K. Kodate, “Optimal design of the grating with reflective
plate of comb type for astronomical observation using RCWA,” Practical
Holography XVIII: Materials and Applications, IS&T Electronic Imaging, 5290
(2004).
73.
T.
Nakayama, K. Shimizu, Y. Takayama, Y. Okazaki, E. Watanabe, T. Aruga, and K.
Kodate, “Design of compact optical setup for hologram multiplexing with a
straight arrangement of two prisms,” Practical Holography XVIII: Materials and
Applications, IS&T Electronic Imaging, 5290, 212-220 (2004).
74.
M.
Kashiwagi, K. Oka, M. Irisawa,
75.
76.
K.
Shimizu, C. Fujikawa, and K. Kodate, “Examination of the applied optical
wireless LAN in a distance learning system,” International Conference Optics
(ICO) & Photonics in Technology Frontier 2004, 347-348 (2004).
77.
Y.
Komai, N. Wada, F. Moritsuka, F. Kubota, and K. Kodate, “A Novel Optical
Spectrum Synthesizer Based on a High-resolution Arrayed Waveguide Grating,
Tunable Attenuators, and Phase Shifters,” 10th Microoptics Conference (MOC)
’04, G-4 (2004).
78.
K.
Shimizu, C. Fujikawa, Y. Ishii, M. Akiba, K. Wakamori, and K. Kodate,
“Examination of the optical propagation characteristics in outdoor free-space
optical communication systems,” 10th Microoptics Conference (MOC) ’04, L-56
(2004).
79.
K.
Oka, W. Klaus, M. Fujino, and K. Kodate, “Rigorous Analysis of Large
Diffractive Optical Elements with Small Feature,” 10th Microoptics Conference
(MOC) ’04, F-7 (2004).
80.
A.
Kato, E. Watanabe,
81.
Y.
Takayama, Y. Okazaki, T. Aruga, and K. Kodate, “A simple method for holographic
recording of images in different polarization states using a fiber bundle with rotary
movement,” Holography, Diffractive Optics, and Applications II, 5636, 71
(2004).
82.
N.
Ebizuka, K. Oka, A. Yamada, M. Ishikawa, M. Kashiwagi, K. Kodate, Y. Hirahara,
M. Watanabe, S. Sato, W. Fuji, M. Wakaki, H. Suto, M. Tamura, K. S. Kawabata,
and M. Iye, “Grism and immersion grating for the 8.2m Subaru telescope,”
Diffractive Optics 2003 Conference Programme, 26 (2004).
83.
Y.
Komai, F. Moritsuka, N. Wada, F. Kubota, and K. Kodate, “Multi-port optical
spectrum synthesizer based on NxN arrayed waveguide grating and its application
for parallel processing,” 8th International Symposium on Contemporary Photonics
Technology (CPT), 157-158 (2005).
84.
E.
Watanabe, M. Ishikawa, M. Ohta, and K. Kodate, “High-accuracy and Robust Face
Recognition System Based on Optical Parallel Correlator using a Temporal Image
Sequence,” Optics and Photonics (OJ) 2005, 5908, 1-8 (2005).
85.
Y.
Komai, H. Nagano, K .Okamoto, and K. Kodate, “Spectroscopic Sensing using a
Visible Arrayed-Waveguide Grating,” Optics and Photonics (OJ) 2005, 5867, 1-12
(2005).
86.
K.
Kodate and E. Torikai, “Promoting Gender Equality in Physics in
87.
K.
Oka, M. Kashiwagi, M. Irisawa,
88.
E.
Watanabe, M. Ishikawa, M. Ohta, Y. Murakami, and K. Kodate, “Constructing a
safety and security system by medical applications of a fast face recognition
optical parallel correlator,” 20th Congress of the International Commission for
Optics, CD-ROM 0403-006 (2005).
89.
E.
Watanabe, N. Arima, and K. Kodate, “Constructing a three-dimensional face model
by a stereo method and its application to optical parallel face recognition,”
20th Congress of the International Commission for Optics, CD-ROM 0403-007,
(2005).
90.
Y.
Komai, N. Wada, F. Moritsuka, and K. Kodate, “Multi-port optical spectrum
synthesizer using arrayed waveguide grating for photonic parallel processing,”
20th Congress of the International Commission for Optics, CD-ROM, 0202-09
(2005).
91.
N.
Wada, Y. Komai, F. Moritsuka, and K. Kodate, “160GHz to 20GHz variable rate RZ
and CS-RZ pulse trains generation based on phase and attenuation tunable
high-resolution AWG, and its application to photonic networks,” 20th Congress
of the International Commission for Optics, CD-ROM, 0502-25, (2005).
92.
E.
Watanabe, M. Ohta, M. Ishikawa, and K. Kodate, “Ultra Fast Face Recognition Optical
Parallel Correlator for Large Scale Database (Several Tens of thousands and
over) -Discussion
and Prospect for general-purpose machine-,” 11th Microoptics Conference (MOC) ’05, 204-205 (2005).
93.
Y.
Komai, H. Nagano, K. Okamoto, and K. Kodate, “Sensitivity Improvement of AWG
Spectroscopic Sensor using Parabola-Shaped Sample Injection Waveguide,” 11th
Microoptics Conference (MOC) ’05, 194-195 (2005).
94.
M.
Nagayoshi, K. Oka, Y. Komai, W. Klaus, and K. Kodate, “Optimal Design for
Fabricating Dammann Color Separation Gratings (DCSG) using Rigorous Coupled
Wave Analysis (RCWA),” 11th Microoptics Conference (MOC) ’05, 214-215 (2005).
95.
M.
Kashiwagi, K. Oka, M. Irisawa, and K. Kodate, “Development of High Efficiency
and Ultra-High Dispersion Elements using Photopolymer,” オルガテクノ2005 (有機ナノテクノロジー展 /
有機テクノロジー国際会議),
293 (2005).
96.
M.
Nagayoshi, K. Oka, W. Klaus, Y. Komai, and K. Kodate, “Optimal Design and
Evaluation of a Color Separation Grating using Rigorous Coupled Wave Analysis,”
Photonics WEST 2006, 6136, 1-11(2006).
97.
Y.
Ishii, M. Irisawa, Y. Takayama,
98.
E.
Watanabe and K. Kodate, “High speed image search engine using collinear holography,”
Defense and Security, 6245, E-1 (2006) (invited paper).
99.
M.
Irisawa, M. Kashiwagi, and K. Kodate, “Fabrication of A Fine Volume Phase
Holographic Grationg with High Eficienty and its Application to Astronomic
Spectrometrical Observation,” International Conference Optics (ICO) 2006, 47-49
(2006).
100.
M.
Ohta, Y. Ichikawa,
101.
K.
Kodate and E. Watanabe, “VCSEL-based Parallel Information Processing--Compact optical
parallel correlator using VCSEL array module-,” 12th Microoptics Conference (MOC) ’06, 208-211 (2006) (invited
paper).
102.
S.
Anzai, N. Wada, F. Moritsuka, Y. Komai, T. Miyazaki, and K. Kodate, “1.28THz
Repetition-Rate Tunable Optical Clock Generation Based on Optical Spectrum
Synthesizer using Attenuation and Phase Tunable AWG,” 12th Microoptics
Conference (MOC) ’06, 212-213 (2006).
103.
Y.
Ichikawa,
104.
T.
Ishida, K. Shimizu,
105.
Y.
Komai, S. Anzai, N. Wada, F. Moritsuka, T. Miyazaki, and K. Kodate, “256 and
1.28THz Repetition-Rate Tuneable Optical Clock Generation Based on Attenuation
and Phase Tuneable Cyclic Arrayed Waveguide Grating and Spectrum Equalizer with
Supercontinuum Generation,” 32th
Europe’s largest optical communication conference (ECOC) 2006, 3,
275-276 (2006).
106.
F.
Moritsuka, N. Wada, T. Sakamoto, T. Kawanishi, Y. Komai, S. Anzai, K. Kodate,
and M. Izutsu, “Large Scale, Multiple, Optical Code-Label Generation and
Processing Based on Multi-Port, Tuneable Spectrum Synthesizer and Electro-Optic
Frequency Comb Generator,” 32th Europe's largest optical communication
conference (ECOC) 2006, 3, 85-86 (2006).
107.
Y.
Ishii, Y. Takayama, M. Irisawa,
108.
E.
Watanabe, M. Ohta, Y. Ichikawa, and K. Kodate, “Optical correlator for face
recognition using collinear holographic system,” International Symposium on
Optical Memory (ISOM) 2006, 272-273 (2006).
109.
K.
Nakajima,
110.
Y.
Komai, H. Nagano, K. Okamoto, and K. Kodate, “Practical Application of Visible
AWG Spectroscopic Sensor Using a Parabola-Shaped Waveguide,” 5th International
Conference on Optics-photonics Design & Fabrication (ODF) 2006, 289-290
(2006).
111.
S.
Ishikawa, E. Watanabe, M. Ohta, and K. Kodate, “Highly-accurate face
recognition using a novel filtering correlation,” 5th International Conference
on Optics-photonics Design & Fabrication (ODF) 2006, 305-306 (2006).
112.
F.
Moritsuka, N. Wada, T. Sakamoto, T. Kawanishi, Y. Komai, S. Anzai, K. Kodate,
and M. Izutsu, “Multi-port Optical Spectrum Synthesizer and Multi-wavelength
Frequency Comb Generator for Multiple Optical Code-label Processing,” 10th
International Symposium on Contemporary Photonics Technology (CPT) 2007, 63-64
(2007).
113.
E.
Watanabe, J. Mizuno, C. Fujikawa, and K. Kodate, “Measurement of refractive
index of photopolymer for holographic gratings,” Photonics West 2007, 6488-09
(2007).
114.
S.
Anzai, Y. Komai, M. Mieno, N. Wada, T. Yoda, T. Miyazaki, and K. Kodate,
“Repetition Rate and Central wavelength Tunable Terahertz Optical Clock
Generation Using Variable Bandwidth Spectrum Shaper,” OptoElectronics and
Communications Conference & Intl Conference on Integrated Optics &
Optical Fiber Communication (OECC/IOOC) 2007, 180-181 (2007).
115.
M.
Mieno, F. Moritsuka, Y. Komai, S. Anzai, K. Kodate, N. Wada, T. Sakamoto, T.
Kawanishi, and M. Izutsu, “Optical Code Label Processing Using Multi-Port
Optical Spectrum Synthesizer and Frequency Comb Generator,” OptoElectronics and
Communications Conference & Intl Conference on Integrated Optics &
Optical Fiber Communication (OECC/IOOC) 2007, 122-123 (2007).
116.
Y.
Ishii, Y. Takayama, A. Inoue, and K. Kodate, “A security key for wearing to
record hologram with random-reference multiplexing scheme,” International
Symposium on Optical Memory (ISOM) 2007, 198-199 (2007).
117.
E.
Watanabe, Y. Ichikawa, and K. Kodate, “Ultra high speed correlator with
holographic disc,” International Symposium on Optical Memory (ISOM) 2007,
260-261 (2007).
118.
Y.
Ichikawa,
119.
E.
Watanabe, Y. Ichikawa, and K. Kodate, “Ultra high speed image and video search
engine using holographic correlator,” International Workshop on Holographic
Memories (IWHM) 2007, 27p08 (2007).
120.
S.
Ishikawa, E. Watanabe, and K. Kodate, “Online face recognition system using a
highly accurate filtering correlation,” 13th Microoptics Conference (MOC) ’07,
130-131 (2007).
121.
M.
Hanesaka, E. Watanabe, J. Mizuno, and K. Kodate, “Two Dimensional Phase
Measurement of Microscopic Objects Using Phase Locking Technique,” 13th
Microoptics Conference (MOC) ’07, 160-161 (2007).
122.
Y.
Komai, H. Nagano, M. Mieno, K. Okamoto, and K. Kodate, “Visible AWG
Spectroscopic Sensor Using a Parabola-Shaped Sample Injection Waveguide,” 13th
Microoptics Conference (MOC) ’07, 194-195 (2007).
123.
E.
Watanabe, T. Ohtsu, Y. Ichikawa, and K. Kodate, “High speed optical correlation
system for face recognition using three dimensional databases,” Photonics West
2008 (2008).
124.
S.
Anzai, M. Mieno, Y. Komai, N. Wada, T. Yoda, T. Miyazaki, and K. Kodate,
“Amplitude, Phase, and Bandwidth Tunable High-resolution Optical Spectrum
Shaper and its Application for Optical Communication Systems,” The Optical
Fiber Communication Conference and Exposition (OFC/NFOEC) 2008, CD-ROM JThA25
(2008).
125.
A.
Inoue, K. Nakajima, and K. Kodate, “Design and Evaluation of Color-Synthesis
VPH Grating Using Rigorous Coupled Wave Analysis,” 6th International Conference
on Optics-photonics Design & Fabrication (ODF) 2008, 359-360 (2008).
126.
E.
Watanabe, M. Hanesaka, J. Mizuno, and K. Kodate, “Two Dimensional Phase
Measurement of biological cell Using Phase Locking Technique,” 6th
International Conference on Optics-photonics Design & Fabrication (ODF)
2008, 547-548 (2008).
127.
K.
Nakajima, N. Ebizuka, M. Iye, and K. Kodate, “Optimal fabrication of volume
phase holographic grism with high efficiency and high dispersion, and its
applications for astronomical observation and a wavelength demultiplexing
device,” Astronomical Telescopes and Instrumentation 2008, 7014, 70141Q (2008).
128.
E.
Watanabe, R. Akiyama, and K. Kodate, “Holographic correlator for video image
files,” International Symposium on Optical Memory and Optical Data Storage
(ISOM/ODS) 2008, 62-64 (2008).
129.
R.
Akiyama, S. Ishikawa, E. Watanabe, and K. Kodate, “Online face recognition
system using holographic optical correlator,” International Symposium on
Optical Memory and Optical Data Storage (ISOM/ODS) 2008, 117-119 (2008).
130.
E.
Toda, Y. Takayama, Y. Komai, and K. Kodate, “Effect of Secondary Mirror on
Far0field Pattern in Reflecting Telescope,” 14th Microoptics Conference (MOC)
’08, 137-13 (2008).
131.
M.
Hanesaka,
132.
A.
Inoue, Y. Takayama, and K. Kodate, “Multiple Wavelengths Recording with Random
Pttern Reference Scheme,” 14th Microoptics Conference (MOC) ’08, 250-251
(2008).
133.
A.
Naito, R. Akiyama,
134.
M.
Mieno, Y. Komai, N. Wada, S. Shinada, T. Yoda, T. Miyazaki, and K. Kodate, “Variable-Waveform
Pulse Generation by Controlling Amplitude and Phase of Spectrum Using
High-Resolution Optical Spectrum Controller,” 14th Microoptics Conference (MOC)
’08, 306-307 (2008).
135.
E.
Watanabe, A. Naito, R. Akiyama, and K. Kodate, “Ultra-high-speed holographic
optical correlation system using a new coding method for various images,”
International Workshop on Holographic Memories (IWHM) 2008, 104 (2008).
136.
E.
Watanabe and K. Kodate, “Ultrahigh-speed optical correlation system using a new
coding method for arbitrary images,” Japan Taiwan Bilateral Science &
Technology Symposium, 89-90 (2008).
137.
M.
Mieno, Y. Komai, N. Wada, S. Shinada, T. Miyazaki, and K. Kodate,
“Variable-Waveform Pulse Generation by Spectrum Control Using Variable
Bandwidth Spectrum Shaper,” Japan Taiwan Bilateral Science & Technology
Symposium, 91-92 (2008).
138.
139.
A.
Naito, E. Watanabe, and K. Kodate, “Ultrahigh-speed compact optical correlation
system using holographic disc,” Optics and Photonics for Information Processing
Ⅲ, 7422, 74420X-1-8 (2009).
140.
A.
Inoue, Y. Takayama, and K. Kodate, “Application of Multiple Wavelength
Recording to Random Pattern Reference Scheme,” ISOM International Symposium on
Optical Memory 2009, 76-77 (2009).
141.
E.
Watanabe, A. Naito, and K. Kodate, “Margin analysis for the optical correlation
system using holographic disc,” ISOM International Symposium on Optical Memory
2009, 164-165 (2009).
142.
K.
Kodate, “From microoptics to information photonics” 15th Microoptics Conference
(MOC) '09, 14-17, (Plenary) (2009).
143.
K.
Nakajima, and K. Kodate, “Optimum fabrication of volume phase holographic grism
for observing most distant galaxies,” 15th Microoptics Conference (MOC) '09,
60-61 (2009).
144.
A.
Inoue, Y. Takayama, and K. Kodate, “The Color Record and Readout System using
Multiple Wavelengths to Random-reference Multiplexing Scheme,” 15th Microoptics
Conference (MOC) '09, 60-61 (2009).
145.
A.
Naito,
146.
A.
Naito, E. Watanabe, and K. Kodate, “Ultrahigh-speed compact optical correlation
system using holographic disc,” IWHM & D 2009, 63-64 (2009).
147.
E.
Watanabe, M. Toshima, C. Fujikawa, and K, Kodate, “Analysis of biological cells
using phase measurement system based on closed loop feed-back control,” ODF
'10, 495-496 (2010).
148.
M.
Shinkaku, A. Naito,
149.
E.
Watanabe, L. Kitabayashi, T. Takahashi, J. Mizuno, M. Kubo, and K. Kodate,
“Copyright Contents Management on the Internet,” 10th International Symposium
on Communications and Information Technologies 2010, 401-405 (2010).
150.
M.
Toshima, E. Watanabe, and K. Kodate, “Two-dimensional Phase Imaging Based on
Closed Loop Feed-back Control,” 16th Microoptics Conference (MOC) '10, 368-369
(2010).
(シンポジウム)
1.
K.
Oka and K. Kodate, “Theoretical analysis of Talbot array illuminator,” The
Joint Forum of Japan Woman’s University and EWHA WOMANS University, MP-10, 10
(2001).
2.
E.
Watanabe and K. Kodate, “Multi-light source Compact Optical Parallel Correlator
(MLCOPaC) for facial recognition using VCSEL array,” The 4th Joint Forum of
Japan Women's University, Ohchanomizu University, Ewha Women's University for
the Promotion of Education and Research in Science for Women in the 21st
Century, 44-45 (2003).
3.
K.
Shimizu, N. Kawakami, and K. Kodate, “Label processing for photonic network
with angular-multiplexed spectral hologram,” The 4th Joint Forum of Japan
Women's University, Ohchanomizu University, Ewha Women's University for the
Promotion of Education and Research in Science for Women in the 21st Century,
P-13, 101-102 (2003).
4.
Y.
Okazaki, T. Nakayama, and K. Kodate, “Optical reproduction of a series of
images by a simple hologram multiplexing method of rotating a fiber bundle,”
The 4th Joint Forum of Japan Women's University, Ohchanomizu University, Ewha
Women's University for the Promotion of Education and Research in Science for
Women in the 21st Century, 103-104 (2003).
5.
K.
Oka, A. Yamada, and K. Kodate, “Rigorous Analysis of a Volume Phase Holographic
Grism for Astronomical Observations,” The 4th Joint Forum of Japan Women's
University, Ohchanomizu University, Ewha Women's University for the Promotion
of Education and Research in Science for Women in the 21st Century, 105-106
(2003).
6.
Y.
Komai, H. Watanabe, K. Kodate, N. Wada, and F. Kubota, “Fourier Synthesis-based
Variable Rate Pulse Trains Generation Using Phase and Attenuation Tunable
High-resolution Array Waveguide Grating.” The 4th Joint Forum of Japan Women's
University, Ohchanomizu University, Ewha Women's University for the Promotion
of Education and Research in Science for Women in the 21st Century, (2003).
7.
N.
Arima, A. Kato, E. Watanabe, and K. Kodate, “Practical Application of Compact
Optical Face Recognition Correlator to e-learning Security,” The 4th Joint
Forum of Japan Women's University, Ohchanomizu University, Ewha Women's
University for the Promotion of Education and Research in Science for Women in
the 21st Century, 109-110 (2003).
8.
M.
Kashiwagi, K. Oka, M. Irisawa, N. Ebizuka, and K. Kodate, “Optimal design and
fabrication of high dispersion VPH grism for Subaru telescope,” The 5th Joint
Forum of Japan Women's University, Ohchanomizu University, Ewha Women's
University for the Promotion of Education and Research in Science for Women in
the 21st Century, 16 (2004).
9.
M.
Nagayoshi, K. Oka, W. Klaus, Y. Komai, and K. Kodate, “Optimal design for
Dammann color separation gratings,” The 5th Joint Forum of Japan Women's
University, Ohchanomizu University, Ewha Women's University for the Promotion
of Education and Research in Science for Women in the 21st Century, 36 (2004).
10.
H.
Nagano, Y. Komai, and K. Kodate, “Application of Arrayed-Waveguide Grating to
Compact Spectroscopic Sensors,” The 5th Joint Forum of Japan Women's
University, Ohchanomizu University, Ewha Women's University for the Promotion
of Education and Research in Science for Women in the 21st Century, 38 (2004).
11.
F.
Moritsuka, Y. Komai, and K. Kodate, “Variable Pulse Rater Trains Generation
Using Arrayed-waveguide Grating,” The 5th Joint Forum of Japan Women's
University, Ohchanomizu University, Ewha Women's University for the Promotion
of Education and Research in Science for Women in the 21st Century, 37 (2004).
12.
K.
Kodate and E. Watanabe, “Introduction of the Laboratory,” 5th HVD FORUM
Seminar, 4 (2007).
13.
K
.Kodate and Y. Komai, “Variable Bandwidth Spectrum Shaper and Application to
THz Repetition Rate Optical Clock Generation,” International Joint Workshop on
OCDMA & OPS 2007, 18-22 (2007).
14.
E.
Watanabe, “Novel Optical Nano Sensing Systems and Those Applications to
Biomedical Science,” MANA International Symposium 2010, PIS-6 (2010).
15.
M.
Toshima, “Analysis of biological cells using phase measurement system based on
closed loop feed-back control,” SPIE Student Chapter Workshop (2010).
16.
E.
Watanabe, “Ultra High-speed Compact Optical Correlation System for Video
Contents,” SPIE Student Chapter Workshop (2010).
17.
Y.
Komai, SPIE Student Chapter Workshop (2010).
(男女共同参画・人材育成)
1.
K.
Kodate, and E. Torikai, “Promoting Gender Equality in Physics in Japan,” Digest
of 2nd IUPAP International Conference on Women in Physics 2005, 135-136 (2005).
2.
K.
Kodate, “High-Precise and Rebust Face-Recognition System Based on Optical
Parallel Correlator,” Digest of 2nd IUPAP International Conference on Women in
Physics 2005, 207 (2005).
3.
K.
Kodate, and K. Tanaka, “Japan Society of Applied Physics,” Digest of 2nd IUPAP
International Conference on Women in Physics 2005, 223 (2005).
4.
K.
Kodate, and N. Kodate, “Comparative case of government policy towards women in
science,” The politics of knowing: research,
institutions and gender in the making the conference facilities of CERGE-EI
(2008).
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