2020

1. A. Sakata, K. Watanabe and T. Baba, “Optimization of atomic layer deposition temperature of ZrO2 coat for GaInAsP photonic crystal nanolaser sensor”, Jpn. J. Appl. Phys., vol. 59, no. 012001, pp. 1-3, 2020. pdf

2. R. Abe, T. Takeda, R. Shiratori, S. Shirakawa, S. Saito and T. Baba, “Optimization of H0 photonic crystal nanocavity using machine learning”, Opt. Lett., vol. 45, no. 2, pp. 319-322, 2020. pdf

3. H. Ito, Y. Kusunoki, J. Maeda, D. Akiyama, N. Kodama, H. Abe, R. Tetsuya, and T. Baba, “Wide beam steering by slow-light waveguide grating and prism lens”, Optica, vol. 7, no. 1, pp. 47-52, 2020. pdf

4. M. Kamata, Y. Hinakura and T. Baba, “Carrier-suppressed single sideband signal for FMCW LiDAR using Si photonic crystal optical modulators”, J. Lightwave Technol., vol. 38, no. 8, pp. 2315-2321, 2020. pdf

5. Y. Hinakura, H. Arai and T. Baba, “Development of 64 Gbps Si photonic crystal modulator”, IEICE Trans. Electron., vol. E103-C, no. 11, pp. 635-644, 2020 (Invited Paper). pdf

6. K. Watanabe, A. Sakata and T. Baba, “pH-sensitive GaInAsP photonic crystal fractal band-edge laser”, Opt. Lett., vol. 45, no. 22, pp. 6202-6205, 2020. pdf

7.  S. Kaneoka, W. Iida, H. Hashiguchi, T. Baba and H. Arai, “Optical high-gain leaky-wave antenna by using a waffle-iron waveguide”, IEICE Electron. Express, 2020.

8.  M. A. Gaafar, T. Baba, M. Eich and A. Y. Petrov, “Front induced transitions in slow light and dispersive waveguides”, SPIE Photonics West, San Francisco, no. 11296-102, 2020.

9.  T. Baba, H. Ito, H. Abe, T. Tamanuki, Y. Hinakura, R. Tetsuya, J. Maeda, M. Kamata, R. Kurahashi and R. Shiratori, “Si PIC based on photonic crystal for LiDAR application”, Opt. Fiber Commun. Conf., San Diego, no. M4H.1, 2020 (Invited Paper).

10.  T. Baba, “Development of Si photonics LiDAR based on photonic crystal slow-light waveguides”, ST Distinguished Lecturer Meet., On-line, 2020 (Invited).

11.  M. A. Gaafar, H. Renner, T. Baba, M. Eich and A. Y. Petrov, “Front induced transitions: refractive index fronts in dispersive waveguides”, SPIE Photonics Europe, 2020.

12.  T. Baba, T. Tamanuki and H. Ito, “Wide 2D optical beam steering in Si photonics only with thermo-optic effect”, Optoelectronic and Commun. Conf., On-line, 2020 (Invited Paper).

13.  Y. Hinakura, D. Akiyama and T. Baba, “High-speed silicon photonic crystal modulators and wavelength division multiplexing”, Int. Symp. Photon. Electron. Convergence, Tokyo, 2020.

14.  H. Ito, T. Tamanuki and T. Baba, “Thermally controlled 2D beam steering using Si photonic crystal slow-light waveguides”, Int. Symp. Photon. Electron. Convergence, Tokyo, 2020.

15.  T. Tamanuki, H. Ito, J. Gondo and T. Baba, “High-speed thermo-optic beam scanner employing Si photonic crystal slow-light waveguides”, Int. Symp. Photon. Electron. Convergence, Tokyo, 2020.

16.  R. Tetsuya, H. Abe, H. Ito, T. Tamanuki a and T. Baba, “Controlled beam steering in serial array of Si photonic crystal waveguide optical antennas”, Int. Symp. Photon. Electron. Convergence, Tokyo, 2020.

17.  R. Shiratori, K. Hayashi and T. Baba, “Particle swarm optimization of Si photonic crystal waveguide junction structure (II) experimental demonstration”, Int. Symp. Photon. Electron. Convergence, Tokyo, 2020.

18.  S. Kaneoka, W. Iida, H. Hashiguchi, T. Baba and H. Arai, “Experimental evaluation on optical leaky waveguide antenna by waffle-iron structure”, IEEE Int. Workshop Electromag. Student Innovation Competition, no. PC2-035, 2020.