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1.    Y. Terada, T. Tatebe, Y. Hinakura and T. Baba, “Si photonic crystal slow-light modulators with periodic p–n junctions”, J. Lightwave Technol., vol. 35, no. 9, pp. 1684-1692, 2017. pdf

2.    H. Hashiguchi, K. Kondo, T. Baba and H. Arai, “An optical leaky wave antenna by waffled structure,” J. Lightwave Technol., vol. 35, no. 11, pp. 2273-2279, 2017. pdf

3.    K. Kondo and T. Baba, “On-chip autocorrelator using counter-propagating slow light in a photonic crystal with two-photon absorption photodiodes”, Optica, vol. 4, no. 9, pp. 1109-1112, 2017. pdf

4.    T. Watanabe, Y. Saijo, Y. Hasegawa, K. Watanabe, Y. Nishijima and T. Baba, "Ion-sensitive photonic-crystal nanolaser sensors," Opt. Express, vol. 25, no. 20, pp. 24469-24479, 2017 pdf

5.    Y. Terada, K. Miyasaka, K. Kondo, N. Ishikura, T. Tamura and T. Baba, “Optimized optical coupling to silica-clad photonic crystal waveguide”, Opt. Lett., vol. 42, no. 22, pp. 4695-4698, 2017. pdf

6.    K. Kondo, T. Tatebe, S. Hachuda, H. Abe, F. Koyama and T. Baba, "Fan beam steering device using a photonic crystal slow-light waveguide with surface diffraction grating", Opt. Lett., vol. 42, no. 23, pp. 4990-4993, 2017. pdf

7.    Y. Terada, K. Kondo, R. Abe and T. Baba, "Full-C-band Si photonic-crystal-waveguide modulator", Opt. Lett., vol. 42, no. 24, pp.5110-5112, 2017. pdf

8.    T. Baba, “Advanced slow light modulators,” SPIE Photonics West, San Francisco, no. 10119-56, 2017 (Invited Paper).

9.    K. Kondo and T. Baba, “Adiabatic wavelength conversion through free-carrier depletion using pn-junction loaded photonic crystal waveguides,” Opt.&Photon. Int. Conf. (Int. Conf. Nanoscience & Nanotechnology), Yokohama, no. ICNN1-3, 2017.

10. H. Abe, S. Ota, Y. Takemura and T. Baba, “Photonic crystal nanolaser array with ordered lasing wavelengths for high-speed cell imaging,” Opt.&Photon. Int. Conf. (Int. Conf. Nanoscience& Nanotechnology), Yokohama, no. ICNN6-4, 2017.

11. Y. Terada, T. Tatebe, Y. Hinakura and T. Baba, “32 Gbps operation in Si photonic crystal slow light modulator,” Opt.&Photon. Int. Conf. (Int. Conf. Nanoscience & Nanotechnology), Yokohama, no. ICNN8-1, 2017.

12. K. Kondo and T. Baba, “On-chip auto-correlator using two-photon-absorption photodiode array and counter-propagating slow light,” Conf. Laser and Electro-Optics, San Jose, no. SM3O.5, 2017.

13. T. Baba, “On-chip auto-correlator using counter propagating slow light in photonic crystal waveguide with TPA-PD array”, IEEE Int. Conf. Transparent Opt. Networks, Girona, no. Mo.D6.1, 2015 (Invited Paper).

14. T. Baba and K. Kondo, “Co- and counter-propagating slow light and their applications,” Int. Conf. Metamaterials, Photonic Crystals and Plasmonics, Seoul, no. 4A38-6, 2017 (Invited Paper).

15. T. Baba, Y. Terada, Y. Hinakura, K. Hojo and H. Ito, “Recent progress in slow light modulators,” Advanced Electromagnetics Sympo., Seoul, no. 1A2-1, 2017 (Invited Paper).

16. H. Hashiguchi, K. Kondo, T. Baba and H. Arai, “Optical leaky waveguide antenna using shallow etched circular waffled waveguide,” Symposium on Antenna and Propagation, San Diego, no. TH-A5.1A, 2017.

17. K. Watanabe, Y. Nishijima and T, Baba, “Ion-sensitive nanolaser for spectral-analysis-free biosensing, Int. Commission for Opt., Tokyo, no. M1D-05, 2017.

18. M. Sakemoto, T. Kageyama, J. Fukuda and T. Baba, “Imaging of various cells and extracellular matrix using GaInAsP semiconductor imaging plate,” Int. Commission for Opt., Tokyo, no. Tu1C-02, 2017.

19. H. Abe and T. Baba, “Theoretical performance of FMCW LiDAR using Si photonics and photonic crystal waveguides,” Int. Commission for Opt., Tokyo, no. Tu1A-04, 2017.

20. T. Watanabe, Y. Saijo, Y. Nishijima and T. Baba, “Evidence of photonic crystal nanolaser sensing surface charge,” Int. Commission for Opt., Tokyo, no. Tu1J-04, 2017.

21. K. Kondo, T. Tatebe, X. Gu, F. Koyama and T. Baba, Photonic crystal slow-light beam steering device with surface diffraction grating,” Int. Commission for Opt., Tokyo, no. Tu2K-02, 2017.

22. G. Takeuchi, M. Takeuchi, T. Yokokawa, H. Abe, H. Ito and T. Baba, “Beam steering device based on double periodic photonic crystal waveguide,” Int. Commission for Opt., Tokyo, no. Tu2K-03, 2017.

23. Y. Terada, G. Takeuchi, K. Hojo and T. Baba, High-speed thermo-optic modulation in Si photonic crystal slow light modulator,” Int. Commission for Opt., Tokyo, no. Tu2J-04, 2017.

24. H. Ito, H. Abe and T. Baba, “Maximum input power available in Si photonics,” Int. Commission for Opt., Tokyo, no. Th2J-06, 2017.

25. Y. Furukado, Y. Hinakura, H. Abe and T. Baba, "Ranging using Si photonic crystal modulator and fiber delay interferometer,” Int. Commission for Opt., Tokyo, no. F1G-05, 2017.

26. H. Hashiguchi, T. Baba and H. Arai, “The excitation of the wide optical leaky waveguide antenna,” Int. Symp. Antenna Prop., Bouquet, 2017.

27. T. Baba and K. Kondo, “Line beam scanner using slow-light waveguides in Si photonics”, Int. Conf. Solid-State Devices and Materials, Sendai, no. H-8-04, 2017 (Invited Paper).

28. H. Hashiguchi, T. Baba and H. Arai, “Plane wave excitation of optical leaky waveguide antenna by arrayed slow taper,” IEEE Conf. Antenna Mes. Appl., Tsukuba, 2017.

29. K. Watanabe, T. Baba, M. Nemoto, F. Nakamura and Y. Goshima, “Label- and spectral-analysis-free detection of neuropsychiatric disease biomarker using ion-sensitive nanolaser”, IEEE Sensors, Glasgow, 2017.

30. T. Baba, “Photonic crystal slow light modulators – optimization and practical performance”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

31. H. Abe, M. Takeuchi, H. Ito, K. Kondo and T. Baba, “2D beam steering using double-periodic photonic crystal slow-light waveguide”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

32. Y. Furukado, H. Abe, Y. Hinakura and T. Baba, “Experimental simulation of FMCW LiDAR using Si photonic crystal modulator, optical antenna and fiber delay line”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

33. Y. Hinakura, Y. Terada, H. Arai and T. Baba, “Improvement of frequency response by electro-optic phase matching in Si photonic crystal slow-light modulator”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

34. K. Itagaki, H. Ito and T. Baba, “Silicon photonics devices and photonic crystal waveguides operating at O band”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

35. H. Ito, Y. Kusunoki, M. Takeuchi and T. Baba, “Unidirectional radiation from Si photonic crystal slow-light beam steering device”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

36. G. Takeuchi, Y. Terada, M. Takeuchi, H. Abe, H. Ito and T. Baba, “Thermally-controlled Si photonic crystal waveguide slow light beam steering device”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

37. Y. Terada, K. Kondo, R. Abe and T. Baba, “Si photonic crystal slow light modulator for full C-band”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.

38. R. Tetsuya, K. Kondo, H. Abe and T. Baba, “Optical beam receiver using Si photonic crystal antenna array”, Int. Sympo. Photon. Electron. Convergence, Tokyo, 2017.