Papers - Sato Shinya

1. Development of a low-cost and miniaturized polarimetric optical fiber strain sensor system using Jones calculus

   Yao Zhao, Lili Yuan and Shinya Sato，Japanese Journal of Applied Physics，vol.58，(1)，(p.012008-1 ～ 012008-7)，2018.12

   

2. Development of a polarization strain sensor system via a neural network

   Yao Zhao, Lili Yuan and Shinya Sato，Japanese Journal of Applied Physics，vol.57，(12)，(p.122501-1 ～ 122501-4)，2018.11

   

3. Development of a low-cost and miniaturized fiber Bragg grating strain sensor system

   Lili Yuan, Yao Zhao and Shinya Sato，Japanese Journal of Applied Physics，vol.56，(5)，(p.052502-1 ～ 052502-5)，2017.04

   

4. Analysis of Solving Multimode-Coupled Equations and Its Improvement for Modulated Fiber Bragg Gratings

   Fatemeh Abrishamian・Shinya Sato・Masaaki Imai，Applied Optics，vol.48，(30)，(p.4031 ～ 4037)，2009.07

   

5. Design theory and experiment of acousto-optical tunable filter by use of flexural waves applied to thin optical fiber

   F. Abrishamian, S. Nagai, S. Sato, and M. Imai，Optical and Quantum Electronics，vol.40，(9)，(p.665 ～ 676)，2008.11

   

6. Experiments of All-Optical Switching Due to Cross-Phase Modulation in Fiber Grating Coupler by Lock-in Amp. Detection Scheme

   Fatemeh Abrishamian・Keiji Narumi・Shinya Sato・Masaaki Imai，Optics Communications，vol.281，(13)，(p.3561 ～ 3566)，2008.07

   

7. Design theory and experiment of acousto-optical tunable filter by use of flexural waves applied to thin optical fiber

   Fatemeh Abrishamian・Shinichi Nagai・Shinya Sato・Masaaki Imai，Optical and Quantum Electronics，vol.40，(9)，(p.665 ～ 676)，2008.07

   

8. テーパファイバの有効コア断面積および群速度分散特性

   王朝陽、辻安寧英、曽根宏靖、今井正明、佐藤信也，電子情報通信学会論文誌C，vol.J90-C，(4)，(p.392 ～ 393)，2007.04

   

9. An efficient approach for calculating the reflection and transmission spectra of fiber Bragg gratings with acoustically induced microbending

   Fatemeh Abrishamian・Yusuke Nakai・Shinya Sato・Masaaki Imai，Optical Fiber Technology，vol.13，(1)，(p.32 ～ 38)，2007.01

   

10. Distributed chromatic dispersion measurement along an optical fiber transmission system with improved correction factor

    Mirza Imran Baig・Toru Miyauchi・Masaaki Imai・Shinya Sato，Optical Engineering，vol.45，(11)，2006.11

    

11. A New Method of Solving Multimode Coupled Equations for Analysis of Uniform and Non-Uniform Fiber Bragg Gratings and Its Application to Acoustically Induced Superstructure Modulation

    Fatemeh Abrishamian・Shinya Sato・Masaaki Imai，Optical Review，vol.12，(6)，(p.467 ～ 471)，2005.11

    

12. 光ファイバーの3次の非線形光学効果を利用した光スイッチングデバイス

    佐藤信也・今井正明，応用物理，vol.73，(11)，(p.1396 ～ 1401)，2004.11

    

13. 超短パルス光で励振した多モード光ファイバーのモード結合特性

    梶本孝夫・佐藤信也・加野裕・今井正明，光学，vol.32，(2)，(p.113 ～ 118)，2003.02

    

14. ニューラルネットワークを用いたＦＢＧセンサによる歪み計測－誤差逆伝搬法によるシミュレーション－

    齋藤大介・佐藤信也・今井正明，室蘭工業大学紀要，(52)，(p.141 ～ 147)，2002.11

    

15. Reduction of mode-coupling and single-mode excitation in multimode fibers by use of ultra-short optical pulses

    Y. Suzuki・S. Sato・M. Imai，IEE J. Trans. Fundamentals amd Materials，vol.121A，(10)，(p.933 ～ 938)，2001.10

    

16. Design of Temperature Independent Add/Drop Filter Using Vertical Coupled ARROW Filter

    S. Suzuki・S Endo・S. Sato・W. Pan・S. T. Chu・Y. Kokubun，Japanese Journal of Applied Physics，vol.39・Part 1，(3B)，(p.1497 ～ 1502)，2000.03

    

17. Temperature insensitive vertically coupled microring resonator add/drop filters by means of a polymer overlay

    S. T. Chu・W. Pan・S. Suzuki・B. E. Little・S. Sato・Y. Kokubun，IEEE Photonics Technology Letters，vol.11，(9)，(p.1138 ～ 1140)，1999.09

    

18. Wavelength Trimming of a Microring Resonator Filter by Means of a UV Sensitive Polymer Overlay

    S. T. Chu・W. Pan・S. Sato・T. Kaneko・B. E. Little・Y. Kokubun，IEEE Photonics Technology Letters，vol.11，(6)，(p.688 ～ 690)，1999.06

    

19. An Eight-Channel Add-Drop Filter Using Vertically Coupled Microring Resonators over a Cross Grid

    S. T. Chu・B. E. Little・W. Pan・T. Kaneko・S. Sato・Y. Kokubun，IEEE Photonics Technology Letters，vol.11，(6)，(p.691 ～ 693)，1999.06

    

20. ARROW-Type Vertical Coupler Filter: Design and Fabrication

    S. T. Chu・W. Pan・S. Sato・B. E. Little・T. Kaneko・Y. Kokubun，Journal of Lightwave Technology，vol.17，(4)，(p.652 ～ 658)，1999.04

    

21. 59-nm Trimming of Center Wavelength of ARROW- Type Vertical Coupler Filter by UV Irradiation

    S. Sato・W. Pan・S. T. Chu・S. Endo・S. Suzuki・Y. Kokubun，IEEE Photonics Technology Letters，vol.11，(3)，(p.358 ～ 360)，1999.03

    

22. Sidelobe Suppression of Vertical Coupler Filter with an X-Crossing Configration

    S. T. Chu・W. Pan・S. Sato・T. Maeda・B. E. Little・Y. Kokubun，Japanese Journal of Applied Physics，vol.37・Part 1，(6B)，(p.3708 ～ 3712)，1998.06

    

23. Planarization of Film Deposition and Improvement of Channel Structure for Fabrication of Anti-Resonant Reflecting Optical Waveguide Type X-Crossing Vertical Coupler Filter

    W. Pan・S. T. Chu・S. Sato・T. Maeda・T. Kato・Y. Kokubun，Japanese Journal of Applied Physics，vol.37・Part 1，(6B)，(p.3713 ～ 3717)，1998.06

    

24. Reduction of Filter Sidelobe Level by an X-Crossing Vertical Coupled ARROW Filter

    S. T. Chu・W. Pan・S. Sato・T. Maeda・B. E. Little・Y. Kokubun，IEEE Photonics Technology Letters，vol.10，(3)，(p.956 ～ 959)，1998.03

    

25. Narrowband Optical Wavelength Comb by ARROW-Type Vertical Couplerwith Thick Cavity

    J. Gehler・S. Sato・S. T. Chu・W. Pan・Y. Kokubun，Electronic Letters，vol.33，(23)，(p.1947 ～ 1948)，1997.11

    

26. 圧電性高分子被覆ファイバ型モード同期レーザ

    佐藤信也・今井正明，電子情報通信学会論文誌，vol.J80-C-1，(8)，(p.374 ～ 379)，1997.08

    

27. Piezoelectric Copolymer-Jacketed Fiber- Type Mode-Locked Laser

    S. Sato・M. Imai，Electronics and Communication in Japan, Part2，vol.80，(7)，(p.1 ～ 8)，1997.08

    

28. 光ファイバ型位相変調器用整合回路

    佐藤信也・堀清敬・今井正明，電子情報通信学会論文誌，vol.J78-C-1，(12)，(p.700 ～ 703)，1995.12

    

29. 100MHz-bandwidth response of a fiber phase modulator with thin piezoelectric jacket

    M. Imai・S. Satoh・T. Sakaguchi・K. Motoi・A. Odajima，IEEE Photonics Technology Letters，vol.6，(8)，(p.956 ～ 959)，1994.08