2014年

1.   T. Watanabe, H. Abe, Y. Nishijima and T. Baba, "Array integration of thousands of photonic crystal nanolasers", Appl. Phys. Lett., vol. 104, no. 12, pp. 121108, 2014.

2.   T. Baba, H. C. Nguyen, N. Yazawa, Y. Terada, Hashimoto, T. Watanabe, "Slow-light Mach–Zehnder modulators based on Si photonic crystals", Sci. Technol. Adv. Mat., vol. 15, no. 2, pp. 024602, 2014 (Invited Paper).

3.   K. Kondo and T. Baba, "Dynamic wavelength conversion in copropagating slow-light pulses", Phys. Rev. Lett., vol. 112, no. 22, pp. 223904, 2014.

4.   Y. Terada, H. Ito, H. C. Nguyen and T. Baba, "Theoretical and experimental investigation of low-voltage and low-loss 25-Gbps Si photonic crystal slow light Mach-Zehnder modulators with interleaved p/n junction", Front. Phys., vol. 2, no. 61, pp. 1-9, 2014.

5.   T. Baba, "Photonic integrated circuits with slow light", SPIE Photonics West, San Francisco, no. 8998-9, 2014 (Invited Paper).

6.   T. Baba, "Photonic crystal nanolaser biosensors", Int. Workshop Fab. Appl. Microstructured Opt. Dev., Yokohama, no. 10, 2014 (Invited Paper).

7.   Y. Terada and T. Baba, “Low-voltage 25 Gbps modulators based on Si photonic crystal slow light waveguides”, Conf. Laser and Electro-Optics, San Jose, no. SM2G.2, 2014.

8.   K. Kondo, N. Ishikura, T. Tamura and T. Baba, “Pulse compression by dynamic control of slow light in dispersion-tunable photonic crystal waveguide”, Conf. Laser and Electro-Optics, San Jose, no. SM4G.8, 2014.

9.   T. Baba, "Bio-sensing and Si photonics with photonic crystals", HGST Photonics Seminar, 2014 (Invited Paper).

10. T. Baba, "Nanolaser and slow-light devices based on photonic crystals"，Kavli Futures Symposium: Nanomaterials Science in Asian Perspective, Seoul, no. G2, 2014 (Invited Paper).

11. T. Baba and K. Kondo, "Dynamic control of slow light pulses in photonic crystal waveguides", IEEE Int. Conf. Transparent Opt. Networks, Graz, no. We.B6.4, 2014 (Invited Paper).

12. T. Baba, “Recent topics in photonic crystals”, THU-CAS-JSPS Int. Sympo., Beijing, no. 3, 2014 (Invited Paper).

13. H. Ito, Y. Terada, N. Ishikura and T. Baba, “On-chip WDM transmission with Si photonic crystal optical modulator”, Int. Sympo. Photon. Electron. Convergence, Tokyo, no. P-14, 2014.

14. Y. Terada, H. Ito and T. Baba, “Optimizing doping profile of Si photonic crystal slow light modulator for increasing phase shift”, Int. Sympo. Photon. Electron. Convergence, Tokyo, no. P-15, 2014.

15. K. Kondo* , N. Ishikura, T. Tamura and T. Baba, “Pulse compression by dynamic tuning in photonic crystal slow-light waveguide”, Int. Sympo. Photon. Electron. Convergence, Tokyo, no. P-15, 2014.

16. T. Tamura, N. Ishikura, K. Kondo and T. Baba, “Silica-clad photonic crystal waveguides for generating wideband dispersion-free slow light with high n_g”, Int. Sympo. Photon. Electron. Convergence, Tokyo, no. P-16, 2014.

17. Y. Hinakura, T. Tamura, Y. Terada, H. Ito and T. Baba, “25 Gbps operation in 90-mm-long phase shifter Mach-Zehnder modulators using high-group-index silica-cladded Si photonic crystal waveguides”, Int. Sympo. Photon. Electron. Convergence, Tokyo, no. P-30, 2014.