液晶レンズに関する発表論文

液晶レンズ研究所代表の佐藤が関与した液晶レンズに関する発表論文のリスト

(ここでは液晶レンズの特性に関わる関連論文として,液晶の分子配向やメモリ特性,及び液晶の屈折率・複屈折の測定等に関する論文も示しています。なお,国際会議や国内学会・研究会等での発表については,膨大になりますので省略します)。

  1. (サーモグラフィへの応用)Marenori Kawamura, Shogo Sato, and Susumu Sato, “Electrically tunable liquid-crystal optical and imaging devices operating in the infrared wavelength range of 10 μm band” , Japanese Journal of Applied Physics, 58 086502 (2019).
  2. (液晶層の利用効率およびその改善法))Marenori Kawamura and Susumu Sato, “Variable wide range of lens power and its improvement in a liquid-crystal lens using highly resistive films divided into two regions with different diameters”, Japanese Journal of Applied Physics, 57, 052602 (2018).
  3. Marenori Kawamura, Kento Nakamura and Susumu Sato, “Liquid-Crystal Micro-Lens Array with Square-Shaped Electrodes”, Mol. Cryst. Liq. Cryst., Vol. 613, pp. 137-142 (2015).
  4. M. Kawamura, K. Nakamura and S. Sato: Liquid-crystal Micro-lens Array with Two-divided and Tetragonally Hole-patterned Electrodes, OPTICS EXPRESS, Vol.21, No.22 Issue 22, pp.26520-26526 (2013.11).
  5. (酸化亜鉛薄膜・低電圧駆動液晶レンズと収差特性) M. Ye, B. Wang, M. Uchida, S. Yanase, S. Takahashi, and S. Sato: Measurement of Optical Aberrations of Liquid Crystal Lens, Japanese Journal of Applied Physics, Vol. 52, pp.042501-4 (2013).
  6. (酸化亜鉛薄膜・低電圧駆動液晶レンズと撮像特性) M. Ye, B. Wang, M. Uchida, S. Yanase, S. Takahashi, and S. Sato: Focus Tuning by Liquid Crystal Lens in Imaging System, Applied Optics, Vol. 51, No. 31, pp.7630-7635 (2012).
  7. M. Ye, B. Wang, M. Uchida, S. Yanase, S. Takahashi, M. Yamaguchi and S. Sato: Low-Voltage-Driving Liquid Crystal Lens, Japanese Journal of Applied Physics, Vol. 49, pp.100204-1-3 (2010).
  8. (光ピンセット・微粒子の回転3) M. Kawamura, J. Onishi and S. Sato: Laser Manipulation by Using Liquid Crystal Devices with Variable-Focusing and Beam-Steering Functions, International Journal of Optomechatronics, Vol. 3, pp. 264-276 (2009).
  9. M. Kawamura, H. Umeda and S. Sato: Optical Trap for Manipulating Plural Particles by Using a Liquid Crystal Device, Molecular Crystals and Liquid crystals, Vol. 510, pp. 191[1325]-196[1330] (2009).
  10. M. Kawamura, M. Ye and S. Sato: Transient Properties of a Liquid Crystal Optical Device with an Anamorphic Lens Property, Molecular Crystals and Liquid crystals, Vol. 510, pp. 182[1316]-190[1324] (2009).
  11. B. Wang, M. Ye, M. Yamaguchi1 and S. Sato: Thin Liquid Crystal Lens with Low Driving Voltages, Japanese Journal of Applied Physics, Vol. 48, pp.098004-1-2 (2009).
  12. (液晶ズームレンズ2) 葉茂,野口実香,王濱,佐藤進: 液晶レンズを用いたズームシステムの構成, 映像情報メディア学会誌, Vol. 63, No.10, pp. 1441-1446 (2009).
  13. (液晶ズームレンズ1) M. Ye, M. Noguchi, B. Wang and S. Sato: Zoom Lens System without Moving Elements Realized Using Liquid Crystal Lenses, Electronics Letters, Vol.45, No.12, pp. 646-648 (2009).
  14. (光ピンセット・微粒子の回転2) M. Kawamura, M. Ye and S. Sato: Laser manipulator for rotating microscopic trapped particles by using liquid crystal optical devices, Molecular Crystals and Liquid Crystals, Vol.488, pp.238-245 (2008).
  15. M. Ye, B. Wang, S. Yanase and S. Sato Variable-focus Liquid Crystal Lenses Used in Imaging Systems as Focusing Elements IEICE Transactions on Electronics, Vol.E91-C,?No.10,?pp.1599-1603 (2008).
  16. M. Kawamura, M. Ye and S. Sato: Transient Properties of a Liquid Crystal Optical Device with an Elliptical Intensity Distribution, Japanese Journal of Applied Physics, Vol.47, No.7, pp.6404-6406 (2008).
  17. (光ピンセット・微粒子の回転1) M. Kawamura, M. Ye and S. Sato: Optical Particle Manipulation Using an LC Device with Eight-divided Circularly Hole-patterned Electrodes, OPTICS EXPRESS, Vol.16, No.14, pp.10059-10065 (2008).
  18. (導電性微粒子の分散系塗布膜を用いた液晶レンズ) M. Ye, B. Wang, M. Yamaguchi and S. Sato: Reducing Driving Voltages for Liquid Crystal Lens Using Weakly Conductive Thin Film, Japanese Journal of Applied Physics, Vol.47, No.6, pp.4597-4599 (2008).
  19. (液体高抵抗層による低電圧駆動液晶レンズ) M. Ye, B. Wang and S. Sato: Realization of Liquid Crystal Lens of Large Aperture and Low Driving Voltages Using Thin Layer of Weakly Conductive Layer, OPTICS EXPRESS, Vol. 16, No. 6, pp.4302- 4308 (2008).
  20. M. Ye, T. Sakamoto, M. Kawamura, R. Yamaguchi and S. Sato: Liquid Crystal Microlens Driven by Two Voltages, Molecular Crystals and Liquid Crystals, Vol. 480, pp. 31-35 (2008).
  21. M. Ye, B. Wang, M. Kawamura, R. Yamaguchi and S. Sato: Transient Properties during Positive- Negative Switching of Liquid Crystal Lens, Molecular Crystals and Liquid Crystals, Vol. 480, pp. 44-48 (2008).
  22. B. Wang, M. Ye, M. Kawamura, R. Yamaguchi and S. Sato: Numerical and Experimental Study of Liquid Crystal Lens with Stacked Structure of Two Liquid Crystal Layers, Molecular Crystals and Liquid Crystals, Vol. 480, pp. 36-43 (2008).
  23. (液晶レンズの撮像デバイスへの応用2) M.Ye, B. Wang, M. Kawamura and S. Sato: Image Formation Using Liquid Crystal Lens, Japanese Journal of Applied Physics, Vol. 46, No. 10, pp. 6776-6777 (2007).
  24. M. Ye, B. Wang, M. Kawamura, and S. Sato: Fast Switching between Negative and Positive Power of Liquid Crystal Lens, IEE Electronics Letters, Vol. 43, No. 8, pp. 474-476 (2007).
  25. (光ピンセット2) M. Kawamura, M. Ye and S. Sato: Optical Tweezers System by Using a Liquid Crystal Optical Device, Molecular Crystals and Liquid Crystals, Vol. 478, pp. 135-142 (2007).
  26. (高誘電率ガラス使用による低電圧化) M. Ye, B. Wang and S. Sato: Effects of Dielectric Constant of Glass Substrates on Properties of Liquid Crystal Lens, IEEE Photonics Technology Letters, Vol. 19, No. 17, pp.1295-1297 (2007).
  27. (液晶レンズの撮像デバイスへの応用1) M. Ye, B. Wang, T. Takahashi and S. Sato: Properties of Variable-focus Liquid Crystal Lens and Its Application in Focusing System, Optical Review, Vol. 14, No. 4, pp. 173-175 (2007).
  28. (液晶レンズの収差測定3) T. Takahashi, B. Wang, M. Ye and S. Sato: Aberration Measurements of a Liquid Crystal Lens Made by a Glass Lens and Liquid Crystal Layers, Japanese Journal of Applied Physics, Vol. 46, No. 5A, pp. 3013-3015 (2007).
  29. (液晶レンズの収差測定2) T. Takahashi, B. Wang, M. Ye and S. Sato: Wavefront Aberrations of a Liquid Crystal Lens with Focal Length Variable from Negative to Positive Values, Japanese Journal of Applied Physics, Vol. 46, No. 5A, pp. 2926-2931 (2007).
  30. (液晶レンズの収差測定1) T.Takahashi, M.Ye and S.Sato: Aberrations of Liquid Crystal Lens, IEE Electronics Letters, Vol. 42, pp.1476-1477 (2006).
  31. (分子配向効果による液晶レンズ) M.Ye, Y.Yokoyama and S.Sato: Liquid Crystal Lens Prepared Utilizing Patterned Molecular Orientations on Cell Walls, Applied Physics Letters., Vol.89, pp.141112-1-3 (2006).
  32. B.Wang, M.Ye and S.Sato: Properties of Liquid Crystal Lens with Stacked Structure of Liquid Crystal Layers, Japanese Journal of Applied Physics, Vol.45, No.10A, pp.7813-7818 (2006).
  33. O.Pishnyak, S.Sato and O.D.Lavrentovich: Electrically-Tunable Lens Based on Dual-Frequency Nematic Liquid Crystal, Appl. Optics, Vol.45, No.19, pp.4576-4582 (2006).
  34. M.Ye, B.Wang and S.Sato: Study of Liquid Crystal Lens with Focus Movable in Focal Plane by Wave-front Analysis, Japanese Journal of Applied Physics (Brief Communications), Vol.45, No.13, pp.3083-3090 (2006).
  35. M.Honma, T.Nose and S.Sato: Fast Determination Method of Cell Thickness and Time-dependent Twist Angle in Twisted-nematic Liquid-crystal Cells, Review of Scientific Instrumentation, Vol.77, No.4, pp.043901-1-8 (2006).
  36. M.Honma, T.Nose and S.Sato: Liquid Crystal Polarization-Converting Devices for Edge and Corner Extractions of Images Using Optical Wavelet Transform, Applied Optics, Vol.45, No. 13, pp.3083-3090 (2006).
  37. M.Ye, B.Wang and S.Sato: Polarization-independent Liquid Crystal Lens with Four Liquid Crystal Layers, IEEE Photonics Technology Letters, Vol.18, No.3, pp.505-507 (2006).
  38. (凸〜凹可変液晶レンズ) B.Wang, M.Ye and S.Sato: Liquid Crystal Lens with Focal Length Variable from Negative to Positive Values, IEEE Photonics Technology Letters, Vol.18, No.1, pp.79-81 (2006).
  39. M.Ye, B.Wang and S.Sato: Liquid Crystal Lens with Focus Movable in Focal Plane, Optics Communications, Vol.259, pp.710-722 (2006).
  40. R.Yamaguchi, Y.Sato and S.Sato: Liquid Crystal Alignment Properties on Crosslinkable Polymer Films with Plasma Surface Modification, Molecular Crystals and Liquid Crystals, Vol.438, pp.109-116 (2005).
  41. M.Tanaka and S.Sato: Millimeter-Wave Propagation Properties of the Nematic Liquid Crystal Cell with a 1-D Periodic Structure Induced by Different Molecular Orientations, Molecular Crystals and Liquid Crystals, Vol.434, pp.107-112 (2005).
  42. M.Ye and S.Sato: New Method of Voltage Application for Improving Response Time of a Liquid Crystal Lens, Molecular Crystals and Liquid Crystals, Vol.433, pp.229-236 (2005).
  43. B.Wang, M.Ye and S.Sato: Experimental and Numerical Studies on Liquid Crystal Lens with Spherical Electrode, Molecular Crystals and Liquid Crystals, Vol.433, pp.217-227 (2005).
  44. (光ピンセット1) M.Kawamura, M.Ye and S.Sato: Optical Trapping and Manipulation System by Using a Liquid Crystal Lens with Focusing and Deflection Properties, Japanese Journal of Applied Physics, Vol.44, No8, pp.6098-6100 (2005).
  45. R.Yamaguchi, T.Kawamura, Y.Sato, and S.Sato: Control of Liquid Crystal Alignment on Crosslinkable Polymer Surfaces with Photo and Plasma Modification, Journal of Photopolymer Science and Technology, Vol.18, No.1, pp.23-26 (2005).
  46. B.Wang, M.Ye and S.Sato: Liquid Crystal Negative Lens, Japanese Journal of Applied Physics, Vol.44, No.7A, pp.4979-4983 (2005).
  47. B.Wang, M.Ye and S.Sato: Liquid Crystal Lens with Stacked Structure of Liquid Crystal Layers, Optics Communications, Vol.250, pp.266-273 (2005).
  48. R.Yamaguchi and S.Sato: Continuous Grey Scale Image Printing on the Liquid Crystal Cell, Applied Physics Letters, Vol.86, No.3, 031913-1-3 (2005).
  49. M.Ye, Y.Yokoyama and S.Sato: Liquid Crystal Anamorphic Lens, Japanese Journal of Applied Physics (Brief Communication), Vol. 44, No. 1A, pp.235-236. (2005).
  50. (2電圧駆動液晶レンズ) M.Ye, B.Wang and S.Sato: Liquid-Crystal Lens with a Focal Length that is Variable in Wide Range, Applied Optics, Vol.43, No.35, pp.6407-6412 (2004).
  51. M.Ye and S.Sato: Liquid Crystal Lens of Two Liquid Crystal Layers, Molecular Crystals and Liquid Crystals, Vol.422, pp.197/[467]-201[477] (2004).
  52. M.Kawamura, Y.Goto and S.Sato: Determination of Anchoring Energy in Nematic Liquid Crystal Cells with Controllable Twist Angles Using a Stokes Parameter Method, Japanese Journal of Applied Physics, Vol. 43, No. 9A, pp.6239-6242 (2004).
  53. M.Ye, S.Hayasaka and S.Sato: Liquid Crystal Lens Array with Hexagonal-Hole-Patterned Electrodes, Japanese Journal of Applied Physics, Vol.43, No. 9A, 2004, pp.6108-6111 (2004).
  54. (曲面形状基板と平行平面構造液晶層からなる液晶レンズ) B.Wang, M.Ye and S.Sato: Lens of Electrically Controllable Focal Length Made by a Glass Lens and Liquid Crystal Layers, Applied Optics, Vol.43, No.17, pp.3420-3425 (2004).
  55. B.Wang, M.Ye and S.Sato: Numerical Study of a Lens-Shaped Liquid Crystal Cell, Molecular Crystals and Liquid Crystals, Vol.413, pp.423-433 (2004).
  56. M.Ye and S.Sato: Enhancement of Focusing Power of Liquid Crystal Lens by New Cell Structure, Molecular Crystals and Liquid Crystals, Vol.413, pp.417-421 (2004).
  57. R.Yamaguchi, Y.Goto and S.Sato: Patterning Properties of Liquid Crystal Alignment by Anchoring Control, Molecular Crystals and Liquid Crystals, Vol.412, pp.285-292 (2004).
  58. M.Kawamura, Y.Goto and S.Sato: Two-Dimensional Measurements of Cell Parameter Distributions in Reflective Liquid Crystal Displays by Using Multiple Wavelengths Stokes Parameters, Journal of Applied Physics, Vol.95, No.8, pp.4371-4375 (2004).
  59. M.Ye, B.Wang and S.Sato: Double Layer Liquid Crystal Lens, Japanese Journal of Applied Physics, Vol.43, No.3A, pp.L352-354 (2004).
  60. M.Kawamura, Y. Goto and S.Sato: A Two-Dimensional Pretilt Angle Distribution Measurement of Twisted Nematic Liquid Crystal Cells by Using Stokes Parameters at Plural Wavelengths, Japanese Journal of Applied Physics, Vol.43, No.2, pp.709-714 (2004).
  61. M.Ye and S.Sato: Liquid Crystal Lens with Focus Movable along and off Axis, Optics Communications, Vol.225, pp.277-280 (2003).
  62. M.Ye and S.Sato: Liquid Crystal Lens with Insulator Layers for Light Waves of Arbitrary Polarizations, Japanese Journal of Applied Physics, Vol.42, No.10, pp.6439-6440 (2003).
  63. M.Ye, B.Wang and S.Sato: Driving of Liquid Crystal Lens without Disclination Occurring by Applying an In-Plane Electric Field, Japanese Journal of Applied Physics, Vol.42, No.8, pp.5086-5089 (2003).
  64. R.Yamaguchi, Y.Goto and S.Sato: Liquid Crystal Alignment Surface with Two Easy Axes Induced by Unidirectional Rubbing, Applied Physics Letters, Vol. 82, No.25, pp.4450-4452 (2003).
  65. (曲面電極基板液晶レンズ) B.Wang, M.Ye, M.Honma, T.Nose and S.Sato: Liquid Crystal Lens with Spherical Electrode, Japanese Journal of Applied Physics, Vol.41, No.11A, pp.L1232-L1233 (2002).
  66. (ミリ波帯の液晶レンズ2) M.Tanaka and S.Sato: Electrically Controlled Millimeter-Wave Focusing Properties of Liquid Crystal Lens, Japanese Journal of Applied Physics, Vol.41, No.8, pp.5332-5333 (2002).
  67. B.Wang, M.Ye, R.Yamaguchi and S.Sato: Novel Method for Pretilt Angle Measurement Using Liquid Crystal Lens Cell, Japanese Journal of Applied Physics, Vol.41, No.8, pp.5307-5310 (2002).
  68. R.Yamaguchi and S. Sato: A Novel Patterning Method of Liquid Crystal Alignment by Azimuthal Anchoring Control, Japanese Journal of Applied Physics, Vol.41, No.8A, pp.L889-L891 (2002).
  69. S.Yanase, K.Ouchi and S.Sato: Imaging Properties of a Double-Layered Liquid Crystal Microlens, Japanese Journal of Applied Physics, Vol.41, No.6A, pp.3836-3840 (2002).
  70. (ミリ波帯の液晶レンズ1) M.Tanaka and S.Sato: Focusing Properties of Liquid Crystal Lens Cells with Stack-Layered Structure in the Millimeter-Wave Region, IEEE Microwave and Wireless Components Letters, Vol. 12, No.5, pp.163-165 (2002).
  71. (絶縁層を有する口径が大きな液晶レンズ) M.Ye and S.Sato: Optical Properties of Liquid Crystal Lens of Any Size, Japanese Journal of Applied Physics, Vol.41, No.5B, pp.L571-L573 (2002).
  72. S.Yanase, K.Ouchi and S.Sato: Molecular Orientation States and Optical Properties of Liquid Crystal Microlenses with an Asymmetric Electrode Structure, Japanese Journal of Applied Physics, Vol.41, No.3A, pp.1482-1488 (2002).
  73. R.Yamaguchi, T.Yamanaka and S.Sato: Liquid-Crystal Optical Rotator Using Weak Azimuthal Anchoring Surface, Japanese Journal of Applied Physics, Vol.40, No.11, pp.6522-6525 (2001).
  74. S.Yanase, K.Ouchi and S.Sato: Molecular Orientation Analysis for a Design Concept of Optical Properties of Liquid Crystal Microlenses, Japanese Journal of Applied Physics, Vol.40, No.11, pp.6514-6521 (2001).
  75. T.Nose, Y.Yamada and S. Sato: Molecular Orientation Effects in the LC Cell Utilizing the Nonuniform Electric Field by the Extra Controlling Electrode, Mol. Cryst. Liq. Cryst., Vol.368, pp.231-238 (2001).
  76. M.Ye and S.Sato: Dynamic Behaviors of Directors in a Liquid Crystal Microlens, Mol. Cryst. Liq. Cryst., Vol.368, pp.113-120 (2001).
  77. (液晶セルパラメータ測定・表示装置) M.Okabe, M.Kaneko, T.Maehara, Y.Togashi and S.Sato: Evaluation of Cell Parameters of TN Liquid Crystal Cells by using a Stokes Parameter Method, Mol. Cryst. Liq. Cryst., Vol.367, pp.771-778 (2001).
  78. M.Kawamura, A.Okamoto and S.Sato: Measurements of Cell Parameters in Reflective Liquid Crystal Cells by using a Stokes Parameter Method, Mol. Cryst. Liq. Cryst., Vol.367, pp.763-770 (2001).
  79. R.Yamaguchi and S.Sato: Tortional Torque Effects of Twisted Nematic Bulk on the Polymer Surface Alignment, Mol. Cryst. Liq. Cryst., Vol.367, pp.379-386 (2001).
  80. (ミリ波帯の偏向デバイス) M.Tanaka and S.Sato: Millimeter-Wave Deflection Properties of Liquid Crystal Prism Cells with Stack-Layered Structure, Japanese Journal of Applied Physics, Vol.40, No.10B, pp.L1123-1125 (2001).
  81. M.Ye and S.Sato: Transient Properties of a Liquid Crystal Microlens, Jpn. J. Appl. Phys, Vol.40, No.10, pp.6012-6016 (2001).
  82. M.Kawamura and S.Sato: Measurements of Cell Thickness Distributions in Reflective Liquid Crystal Cells Using a Two-Dimensional Stokes Parameter Method, Japanese Journal of Applied Physics, Vol.40, No.6B, pp.L621-624 (2001).
  83. (液晶のミリ波帯透過特性2) M.Tanaka and S.Sato: Electrically Controlled Millimeter-Wave Transmission Properties of Stack-Layered Liquid Crystal Cells with Metal Substrates, Japanese Journal of Applied Physics, Vol.40, No.6A, pp.4131-4135 (2001).
  84. M.Honma, T.Nose and S.Sato: Improvement of Aberration Properties of Liquid Crystal Microlenses Using the Stacked Electrode Structure, Japanese Journal of Applied Physics, Vol.40, No.3A, pp.1322-1327 (2001).
  85. T.Nose, Y.Yamada and S.Sato: Improvement of Optical Properties and Beam Steering Functions in a Liquid Crystal Microlens with an Extra Controlling Electrode by a Planar Structure, Japanese Journal of Applied Physics, Vol.39, No.11 pp.6383-6387 (2000).
  86. (液晶のミリ波帯透過特性1) M.Tanaka, T.Nose and S.Sato: Millimeter-Wave Transmission Properties of Nematic Liquid-Crystal Cells with a Grating-Patterned Electrode Structure, Japanese Journal of Applied Physics, Vol.39, No.11, pp.6393-6396 (2000).
  87. M.Honma, T.Nose and S.Sato: Enhancement of Numerical Aperture in Liquid Crystal Microlenses by Using a Stacked Electrode Structure, Japanese Journal of Applied Physics, Vol.39, No.8, pp.4799-4802 (2000).
  88. R.Yamaguchi and S.Sato: Increase of Azimuthal Anchoring Energy and Thermal Stability at Homogeneously Oriented Liquid Crystal/Polymer Interface, Japanese Journal of Applied Physics, Vol.39, No.7, pp.L681-683 (2000).
  89. M.Honma and S.Sato: Polarization-Independent Optical Properties in Liquid Crystal Polarization- Converting Device, Japanese Journal of Applied Physics, Vol.39, No.6, pp.3442-3446 (2000).
  90. M.Honma, R.Yamaguchi and S.Sato: Application of a Circularly-Homogeneously Aligned Liquid Crystal Cell to Real Time Measurements of Twist Angles in Twisted Nematic Liquid Crystal Cells, Japanese Journal of Applied Physics, Vol.39, No.5A, pp.2727-2731 (2000).
  91. M.Honma, T.Nose and S.Sato: Optical Haar Wavelet for Extracting Edge Features along Arbitrary Directions. Optical Review, Vol.7, No.1, pp.9-13 (2000).
  92. M.Ye, M.Honma and S.Sato: Improvement of Decay Properties of a Liquid Crystal Microlens with a Divided Electrode Structure, Japanese Journal of Applied Physics, Vol.38, No.12A, pp. L1412-1415 (1999).
  93. (液晶レンズを通して撮影した写真) S.Sato: Applications of Liquid Crystals to Variable-Focusing Lenses, Optical Review, Vol.6, No.6, pp.471-485 (1999).
  94. W-T.He, T.Nose and S.Sato: Behavior of Disclination Lines in Liquid Crystal Cells with a Relief Polymer Layer by a Single Step UV Irradiation, Molecular Crystals & Liquid Crystals., Vol.331, pp.407-414 (1999).
  95. Y.Zhou, Z.He and S.Sato: Generalized Relation Theory of Torque Balance Method for Azimuthal Anchoring Measurements, Japanese Journal of Applied Physics, Vol.38, No.8, pp.4857-4859 (1999).
  96. H.Kusanagi, S.Masuda, T.Nose and S.Sato: Graded Index Type Liquid Crystal Microlens Using a Small Amount of Polymer, Materials Science Forum, Vol. 308-311, pp.591-596 (1999).
  97. S.Sato, T.Nose, S.Masuda and S.Yanase: Functionally Graded Optical Polymer Materials Prepared Using UV-Curable Liquid-Crystals with an Electric Field, Materials Science Forum, Vol. 308-311, pp.567-572 (1999).
  98. M.Honma, T.Nose and S.Sato: Optimization of Device Parameters for Minimizing Spherical Aberration Astigmatism in Liquid Crystal Microlenses, Optical Review, Vol.6, No.2, pp.139-143 (1999).
  99. (アナモルフィック液晶レンズ) M.Honma, T.Nose and S.Sato: Optical Properties of Anamorphic Liquid Crystal Microlenses and Their Application for Laser Diode Collimation, Japanese Journal of Applied Physics, Vol.38, No.1A, pp.89-94 (1999).
  100. (異方性を有する液晶回折格子2) Z.He, T.Nose and S.Sato: Polarization Properties of an Amplitude Nematic Liquid Crystal Grating, Optical Engineering, Vol.37, No.11, pp.2885-2898 (1998).
  101. K.Rajesh, R.Yamaguchi, A.Sato and S.Sato: Patterned Alignment of Liquid Crystal on Photopolymer by Single-Exposure Photocuring Process, Japanese Journal of Applied Physics, Vol.37, No.11, pp.6111-6112 (1998).
  102. (異方性を有する液晶回折格子1) Z.He and S.Sato: Polarization Properties of Inversely Twisted Nematic Liquid Crystal Gratings, Applied Optics, Vol.37, No.28, pp.6755-6763 (1998).
  103. S.Masuda, T.Nose and S.Sato: Optical Properties of a Polymer-Stabilized Liquid Crystal Microlens, Japanese Journal of Applied Physics, Vol.37, No.10B, pp.L1251-1253 (1998).
  104. W-T.He, T.Nose and S.Sato: Optical Properties of a Double Layer Polymer/LC Grating by UV Irradiation Process, Proc. SPIE, Vol.3557, pp.271-275 (1998).
  105. Y.Zhou and S.Sato: Electro-optical and Response/Relaxation Properties of Liquid Crystal Cells in In-plane Switching Mode with Polyvinylcinnamate Photoinduced Alignment Layer, Japanese Journal of Applied Physics, Vol.37, No.8, pp.4439-4443 (1998).
  106. W-T He, T.Nose and S.Sato: Novel Liquid Crystal Grating with a Relief Structure by a Simple UV Irradiation Process, Japanese Journal of Applied Physics, Vol.37, No.7, pp.4066-4069 (1998).
  107. W-T.He, T.Nose and S.Sato: A Double Layer Polymer/Liquid-Crystal Grating with Polarization Direction-Independent Diffraction Properties, Japanese Journal of Applied Physics, Vol.37, No.7A, pp.L795-797 (1998).
  108. W-T.He, T.Nose and S.Sato: Electrooptical Properties of a Polymer/LC Grating Fabricated by UV Irradiation, Journal of Photopolymer Science and Technology, Vol.11, No.2, pp.205-210 (1998).
  109. (液晶のパラメータの二次元測定及び表示2) Y.Zhou, Z.He and S.Sato: An Improved Stokes Parameter Method for Determination of the Cell Thickness and Twisted Angle of Twisted Nematic Liquid Crystal Cells, Japanese Journal of Applied Physics, Vol.37, No.5A, pp.2567-2571 (1998).
  110. (液晶のパラメータの二次元測定及び表示1) Z.He, Y.Zhou and S.Sato: A Two-Dimensional Stokes Parameter Method for Determination of Cell Thickness and Twist Angle Distributions in Twisted Nematic Liquid Crystal Devices, Japanese Journal of Applied Physics, Vol.37, No.4A, pp.1982-1988 (1998).
  111. S.Masuda, T.Nose and S.Sato, Optical Properties of an UV-Cured Liquid Crystal Microlens Array, Applied Optics, Vol.37, No.11, pp.2067-2073 (1998).
  112. R.Yamaguchi, A. Sato and S.Sato: A Novel Alignment Process in Liquid Crystal Cell Fabrication Using Reversible Poly (Vinyl-Cinnamate) Photoalignment Technique, Japanese Journal of Applied Physics, Vol.37, No.3B, pp.L336-338 (1998).
  113. S.Masuda, T.Nose and S.Sato: Visualization of Director Distribution from the Cross-Sectional Image Using a Dye Doped UV Cured Liquid Crystal Cell, Molecular Crystals & Liquid Crystals, Vol.303, pp.231-236 (1997).
  114. (液晶位相回折格子) Z.He, T.Nose and S.Sato: Polarization Properties of a Liquid Crystal Phase Grating, Molecular Crystals & Liquid Crystals, Vol.301, pp.295-300 (1997).
  115. R.Yamaguchi and S.Sato: "Peculiar Alignment Properties of Nematic Liquid Crystals with a Bicyclohexane Core, " Molecular Crystals & Liquid Crystals, Vol.301, pp.67-72 (1997).
  116. M.Honma, S.Masuda, T.Nose and S.Sato: Optical Properties of an Anamorphic Liquid Crystal Microlens Using an Elliptically-Patterned Electrode Structure, SPIE Proceedings, Vol.3143, pp.208-213 (1997).
  117. T.Nose, S.Masuda and S.Sato: Application of a Liquid Crystal Lens to a Double-Focusing Common-Path Interferometer, SPIE Proceedings, Vol.3143, pp.165-170 (1997).
  118. 能勢敏明,佐藤進: 液晶マイクロレンズ(解説), レーザー研究, Vol.25, No.10, pp.689-693 (1997).
  119. (テラヘルツ帯における液晶の複屈折について) T.Nose, S.Sato, K.Mizuno, J.Bae and T.Nozokido: Refractive Index of Nematic Liquid Crystals in the Submillimeter Wave Region, Applied Optics, Vol.36, No.25, pp.6383-6387 (1997).
  120. (光偏向可能な液晶レンズ) S.Masuda, S.Takahashi, T.Nose, S.Sato and H.Ito: Liquid Crystal Microlens with Beam-Steering Function, Applied Optics, Vol.36, No.20, pp.4772-4778 (1997).
  121. K.Rajesh, S.Masuda, R.Yamaguchi and S.Sato: Alignment of Nematic Liquid Crystal on Poly (Vinyl Cinnamate Photopolymer and Anchoring Direction, Japanese Journal of Applied Physics, Vol.36, No.7, pp.4404-4408 (1997).
  122. Y.Zhou and S.Sato: A Method for Determining Elastic Constants of Nematic Liquid Crystals at High Electric Fields, Japanese Journal of Applied Physics, Vol.36, No.7, pp.4397-4400 (1997).
  123. R.Yamaguchi Y.Waki and S.Sato: Wide Viewing Angle Properties in Nematic Liquid Crystal/UV Curable Liquid Crystal Composite Films with Some Aligned-Modes, Journal of Photopolymer Science and Technology, Vol.10, No.1, pp.19-24 (1997).
  124. R.Yamaguchi Y.Waki and S.Sato: Reverse Mode and Wide Viewing Angle Properties in Polymer Dispersed Liquid Crystal Cells Prepared Using a UV Curable Liquid Crystal, Japanese Journal of Applied Physics, Vol.36, No.5A, pp.2771-2774 (1997).
  125. S.Masuda, M.Honma, T.Nose and S.Sato: Influence of Elastic Constants on the Optical Properties of Liquid Crystal Microlens, Japanese Journal of Applied Physics, Vol.36, No.5A, pp.2765-2770 (1997).
  126. Y.Zhou, Z.He and S.Sato: A Novel Method for Determining the Cell Thickness and Twisted Angle of a Twisted Nematic Cell by Stokes Parameter Measurement, Japanese Journal of Applied Physics, Vol.36, No.5A, pp.2760-2764 (1997).
  127. R.Yamaguchi, S.Masuda and S.Sato: Cross-Sectional Observations of Laser Addressed UV Curable Smectic Liquid Crystal Cells, Japanese Journal of Applied Physics, Vol.36, No.4A, 2259-2260 (1997).
  128. Z.He, Z.Ling, T.Nose and S.Sato: Liquid Crystal Display Devices with Slit-Patterned Electrode Structures, Japanese Journal of Applied Physics, Vol.36, No.4A, pp.2128-2133 (1997).
  129. T.Nose, S.Masuda, S.Sato, J.Li, L-C.Chien and P.J.Bos: Effects of Low Polymer Content in a Liquid Crystal Microlens, Optics Letters, Vol.22, No.6, pp.351-353 (1997).
  130. Z.He, T.Nose and S.Sato: Molecular Orientations and Optical Transmission Properties of Liquid Crystal Cells with Slit-Patterned Electrodes, Japanese Journal of Applied Physics, Vol.36, No.3A, pp.1178-1184 (1997).
  131. S.Masuda, T.Nose and S.Sato: Cross-Sectional Observations of Molecular Orientation in LCDs Using a UV Curable Liquid Crystal, Materials Research Society Symposium Proceedings, Vol.425, pp.143-148 (1996).
  132. Z.He, S.Tanaka, T.Nose and S.Sato: Viewing-Angle Properties of Electrically Induced Hybrid Twisted Nematic Liquid Crystal Display Devices, SPIE, Proceedings, Vol.2892, pp.2-9 (1996).
  133. S.Masuda, S.Fujioka, M.Honma, T.Nose and S.Sato: Dependence of Optical Properties on the Device and Material Parameters in Liquid Crystal Microlenses, Japanese Journal of Applied Physics, Vol.35, No.9A, pp.4668-4672 (1996).
  134. (液晶回折格子2) Z.He, T.Nose and S.Sato: Polarizations Modulation of a Nematic Liquid Crystal Grating, Proc. SPIE. Vol.2873, pp.328-331 (1996).
  135. S.Masuda, T.Nose, R.Yamaguchi and S.Sato: Polarization Converting Devices Using a UV Curable Liquid Crystal, SPIE, Vol.2873, pp.301-304 (1996).
  136. R.Yamaguchi and S.Sato: Anisotropy of Nonrubbed UV Curable Polymer Films Inducing Liquid Crystal Alignment, Japanese Journal of Applied Physics, Vol.35, No.7B, pp.L937-939 (1996).
  137. (液晶回折格子1) Z.He, T.Nose and S.Sato: Diffraction and Polarization Properties of a Liquid Crystal Grating, Japanese Journal of Applied Physics, Vol.35, No.6A, pp.3529-3530 (1996).
  138. S.Masuda, T.Nose and S.Sato: Cross Sectional Observations of the Cholesteric Texture in a Cano Wedge Cell, Liquid Crystals, Vol.20, No.5, pp.577-579 (1996).
  139. 山口留美子,佐藤進: メモリー機能を有する高分子・液晶複合ディスプレイ, ディスプレイアンドイメージング, Vol.4, No.2, pp.163-168 (1996).
  140. R.Yamaguchi and S.Sato: Determination of Nematic Liquid Crystal (NLC) Orientation by Observing NLC Droplets on Alignment Surfaces, Japanese Journal of Applied Physics, Vol.35, No.1B, pp.L117-L119 (1996).
  141. T.Nose, T.Sato and S.Sato: Behavior of Disclination Lines Induced by a Nonuniform Electric Field in a Nematic Liquid Crystal Cell, Molecular Crystals & Liquid Crystals, Vol.275, pp.63-74 (1996).
  142. Z. He, M.Honma, S.Masuda, T.Nose and S.Sato: Optical Haar Wavelet Transforms with Liquid Crystal Elements, Japanese Journal of Applied Physics, Vol.34, No.12A, pp.6433-6438 (1995).
  143. S.Masuda, T.Nose and S.Sato: Visualization of a Molecular Orientation by Using a UV-Curable Liquid Crystal, Japanese Journal of Applied Physics, Vol.34, No.8B, pp.L1055-1057 (1995).
  144. S.Masuda, T.Nose, R.Yamaguchi and S.Sato: A Radial Molecular Orientation Using a Flow-Induced Aligning Method in a Nematic Liquid Crystal Cell, Japanese Journal of Applied Physics, Vol.34, No.8A, pp.4129-4132 (1995).
  145. R.Yamaguchi and S.Sato: Alignment of Liquid Crystals by Copying an Aligning Function of Polymer Films into a UV Cured Polymer Surface, Japanese Journal of Applied Physics, Vol.34, No.7B, pp.L897-L899 (1995).
  146. R.Yamaguchi, N.Sudo and S.Sato: Effects of UV Irradiation in Memory-Type PDLC Films Formed by a Photo-Induced Phase Separation, Molecular Crystals & Liquid Crystals, Vol.262, pp.119-127 (1995).
  147. S.Masuda, T.Nose and S.Sato: Optical Properties of Polarization Converting Device Using a Liquid Crystal Cell, Optical Review, Vol.2, No.3, pp.211-216 (1995).
  148. (液晶シリンダーレンズの応用) Z.He, T.Nose and S.Sato: Cylindrical Liquid Crystal Microlens and Its Application in Optical Pattern Correlation Systems, Japanese Journal of Applied Physics, Vol.34, No.5A, pp.2392-2395 (1995).
  149. 能勢敏明,佐藤進: 不均一電界による液晶分子配向効果とその応用, 日本AEM学会誌, Vol.3, No.1, pp.77-82 (1995).
  150. R.Yamaguchi and S.Sato: Light Scattering and Reflection Properties in Polymer Dispersed Liquid Crystal Cells with Memory Effects, IEICE Transactions on Electronics, Vol.E78-C, No.1, pp.106-110 (1995).
  151. Z.He and S.Sato:Generation of Optical Haar Wavelets by Zone Plates, Optics Letters, Vol.9, No.10, pp.686-688 (1994).
  152. T.Nose and S. Sato: Flip-Flop and Oscillating Behavior Obtained with Serial Connection of Liquid Crystal Bistable Optical Device Pixels, Japanese Journal of Applied Physics, Vol.33, No.4A, pp.L517-L519 (1994).
  153. 能勢敏明,川村徹也,佐藤進: 液晶光双安定素子による画像演算, テレビジョン学会誌, Vol.48, No.3, pp.301-306 (1994).
  154. (液晶シリンダーレンズ) Z.He, T.Nose and S.Sato: Optical Performance of Liquid Crystal Cells with Asymmetric Slit-Patterned Electrodes in Various Applied Field Configurations, Japanese Journal of Applied Physics, Vol.33, No.2, pp.1091-1095 (1994).
  155. R.Yamaguchi, H.Ookawara, M.Ishigame and S.Sato: Thermally Addressed and Erasable Displays by Polymer Dispersed Nematic Liquid Crystal with Memory Properties, Journal of the Society for Information Display, Vol.1, No.3, pp.347-352 (1993).
  156. T.Nose, Y.Ukawa and S.Sato: Scattering Type Displays Using Memory Effects in Nematic LC Cells without Rubbing, Journal of the Society for Information Display, Vol.1, No.3, pp.329-333 (1993).
  157. R.Yamaguchi and S.Sato: Highly Transparent Memory States in Polymer Dispersed Liquid Crystal Films, Liquid Crystals, Vol.14, No.4, pp.929-935 (1993).
  158. T.Nose, Y.Ukawa, and S.Sato: Light Scattering Properties Induced by Memory Effects in a Nematic Liquid Crystal Cell without Rubbing, Liquid Crystals, Vol.14, No.2, pp.545-550 (1993).
  159. S.Sato, R.Yamaguchi, S.Dickmann and D.A.Mlynski: Angular Dependence of Transmission Properties in Polymer Dispersed Liquid Crystal Cells with Memory Effects, Japanese Journal of Applied Physics, Vol.32, Part 1, No.5A, pp.2025-2028 (1993).
  160. (液晶マイクロレンズアレイによる光散乱2) 能勢敏明,佐藤進: 液晶マイクロレンズ不規則配列セルの光散乱効果, テレビジョン学会誌, Vol.47, No.1, pp.88-93 (1993).
  161. T.Nose and S.Sato: Application of a Liquid crystal Microlens to an Optical Fiber Switch, Electronics and Communications in Japan, Part 2, Vol.75, No.11, pp.1-10 (1992).
  162. T.Nose, S.Masuda and S.Sato: A Liquid Crystal Microlens with Hole-Patterned Electrodes on Both Substrates, Japanese Journal of Applied Physics., Vol.31, No.5B, pp.1643-1646 (1992).
  163. R.Yamaguchi and S.Sato: Highly Transparent Memory States by Phase Transition with a Field in Polymer Dispersed Liquid Crystal Films, Japanese Journal of Applied Physics, Vol.31, No.3A, pp.L254-L256 (1992).
  164. 能勢敏明,佐藤進: 液晶マイクロレンズの光ファイバスイッチへの応用, 電子情報通信学会論文誌, Vol.J75-CT, No.3, pp.155-163 (1992).
  165. (液晶マイクロレンズアレイによる光散乱1) T.Nose and S.Sato: LCD Devices Obtained with Scattering Properties of Microlens Effects, Proceedings of the Society for Information Display, Vol.32, No.3, pp.177-181 (1991).
  166. T.Nose, S.Masuda and S.Sato: Memory Effects in Nematic Liquid Crystals by a Surface Molecular Orientation, Japanese Journal of Applied Physics. Vol.30, No.12A, pp.3450-3455 (1991).
  167. (対称構造液晶マイクロレンズ) T.Nose S.Masuda and S.Sato: Optical Properties of a Liquid Crystal Microlens with a Symmetric Electrode Structure, Japanese Journal of Applied Physics., Vol.30, No.12B, pp.L2110-L2112 (1991).
  168. 増田伸,能勢敏明,佐藤進: ハイブリッド配向液晶電気光学マイクロレンズにおける光学的特性及び分子配向, 光学, Vol.20, No.4, pp.232-238 (1991).
  169. R.Yamaguchi and S.Sato: Memory Effects of Light Transmission Properties in Polymer-Dispersed Liquid-Crystal (PDLC) Films, Japanese Journal of Applied Physics., Vol.30, No.4, pp.L616-618, (1991).
  170. T.Nose, S.Masuda and S.Sato: Optical Properties of a Hybrid-Aligned Liquid Crystal Microlens, Molecular Crystals & Liquid Crystals, Vol.199, pp.27-35 (1991).
  171. T.Nose and S.Sato: Optical and Electrical Logic Operations by a Liquid Crystal Bistable Optical Device, Japanese Journal of Applied Physics, Vol.29,No.9, pp.L1679-1681 (1990).
  172. T.Nose and S.Sato: Compensation for Nonlinear Properties in a Liquid Crystal Lens with Variable Focal Length, Electronics and Communications in Japan, Part 2, Vol.73, No.8, pp.40-49 (1990).
  173. 能勢敏明,佐藤進: 液晶レンズの可変焦点特性における非直線性の補償, 電子情報通信学会論文誌, Vol.J72-C , No.10, pp.619-625 (1989).
  174. R.Yamaguchi, T.Nose and S.Sato: Liquid Crystal Polarizers with Axially Symmetrical Properties, Japanese Journal of Applied Physics, Vol.28, No.9, pp.1730-1731 (1989).
  175. S.Sato, T.Nose, R.Yamaguchi and S.Yanase: Relationship between Lens Properties and Director Orientation in a Liquid-Crystal Lens, Liquid crystals, Vol.5, No.5, pp.1435-1442 (1989).
  176. (液晶マイクロレンズ) T.Nose and S.Sato: Liquid-Crystal Microlens obtained with a Nonuniform Electric Field, Liquid Crystals, Vol.5, No.5, pp.1425-1433 (1989).
  177. (アッベ屈折計による種々の液晶の屈折率の測定) 山口留美子,佐藤進: ネマチック液晶における屈折率分散特性, 電子情報通信学会論文誌, Vol.J71-C, No.9, pp.1241-1247 (1988).
  178. 能勢敏明,山口留美子,佐藤進: メチレンブルー薄膜の偏光特性およびネマティック液晶分子配向特性, 電子情報通信学会論文誌, Vol.J71-C, No.8, pp.1188-1194 (1988).
  179. (白内障患者への液晶レンズの摘要) 酒井文明,高橋久志,内山博之,佐藤進: 焦点距離可変液晶レンズ, 日本眼光学学会誌, Vol.9, No.1, pp.30-37 (1988).
  180. 山口留美子,能勢敏明,佐藤進: 軸対称分子配向ネマチック液晶セルの特性, 電子情報通信学会論文誌, Vol.J71-C, No.2, pp.259-264 (1988).
  181. T.Nose and S.Sato: Liquid-Crystal Bistable Device with an Internal Optical Feedback, Proceedings of the SID, Vol.28, No.3, pp.323-327 (1987).
  182. T.Nose and S.Sato: Linearising Method for Nonlinear Properties in a Liquid-Crystal Lens, Electronics Letters, Vol.23, No.17, pp.878-879 (1987).
  183. (自然光対応・高速化液晶フレネルレンズ) S.Sato, A.Sugiyama and R.Sato: Variable Focus Liquid-Crystal Fresnel Lens, Japanese Journal of Applied Physics, Vol.24, No.8, pp.L626-628 (1985).
  184. 佐藤進: ネマチック液晶セルの光学的特性に及ぼす弾性表面波の効果, 電子通信学会論文誌, Vol.J67-C, No.8, pp.629-630 (1984).
  185. 佐藤進: 補償液晶セルにおける分子配向に及ぼす弾性表面波の効果, 電子通信学会論文誌, Vol.J65-C, No.11, pp.945-951 (1982).
  186. S.Sato and H.Ueda: Effects of Surface Acoustic Waves on Molecular Orientation in Nematic Liquid Crystals, Japanese Journal of Applied Physics, Vol.20, No.7, pp.L511-514 (1981).
  187. (液晶レンズの最初の論文) S.Sato: Liquid-Crystal Lens-Cells with Variable Focal Length, Japanese Journal of Applied Physics, Vol.18, No.9, p.1679-1684 (1979.9).
  188. 佐藤進,上田宏子: 補償液晶セルにおける分子配向と誘電特性および表示素子への応用, 電子通信学会論文誌, Vol.J61-C, No.9, pp.571-578 (1978).
  189. 佐藤進,和田正信: ネマチック液晶セルにおける電界制御複屈折の応答・回復特性および改善法, 電子通信学会論文誌, Vol.J60-C, No.11, pp.728-733 (1977).
  190. (液晶プリズムの論文) 佐藤進,菊池明: ネマチック液晶セルによる光偏向, 応用物理, Vol.45, No.10, pp.938-942 (1976).
  191. 佐藤進,和田正信: ネマチック液晶セルにおける電界誘起複屈折の角度依存性, 応用物理, Vol.44, No.3, pp.263-265 (1975).
  192. S.Sato and M.Wada: Molecular Orientation Effects in Compensated Liquid Crystals, Japanese Journal of Applied Physics, Vol.11, No.10, pp.1566-1570 (1972).
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