Tomoyuki Yoshie, Assistant Professor of Electrical & Computer Engineering

Tomoyuki Yoshie received his B.S.Eng. and M.S.Eng. degrees in Electrical Engineering from Kyoto University in 1990 and 1992, respectively, and then worked as a research engineer and later a chief research engineer at Sanyo Electric, Japan, for developing green-blue-UV semiconductor laser diodes. He received his M.S. and Ph.D. degrees in Electrical Engineering from California Institute of Technology in 2000 and 2004, respectively. He demonstrated quantum dot photonic crystal nanolasers, 130 GHz photonic crystal nanolasers and strong coupling with a single quantum dot in a photonic crystal nanocavity. He joined ECE as an Assistant Professor in 2005.

Contact Info:

Office Location:	Ciemas 3529
Office Phone:	(919) 660-8448
Email Address:
Web Page:	http://www.wix.com/yosh37/index

Education:

PhD	Caltech	2004
MSEng	Kyoto	1992
BSEng	Kyoto	1990

Specialties:

Photonics
Semiconductor Photonic Devices
Nanoscale/microscale computing systems
Quantum Information
Integrated Nanoscale Systems
Sensing and Sensor Systems

Current Ph.D. Students   (Former Students)

• Shu-Yu Su  

Recent Publications   (More Publications)

1. S.-Y. Su and T. Yoshie, Optical surface edge Bloch modes: subwavelength-scale 2D light localization, Optics Letters, vol. 37 (November 1, 2012), pp. 4798 [OL.37.004398], [doi]  [abs]
2. S.-Y. Su and T. Yoshie, InGaP microdisk optical resonators embedded in indium tin oxide, Applied Physics Letters, vol. 100 no. 23 (2012), pp. 231103 [doi]  [abs]
3. O. Senlik, H.Y. Cheong and T. Yoshie, Design of subwavelength-size indium tin oxide (ITO)-clad optical disk cavities with quality factors exceeding 10,000, Optics Express, vol. 19 (November, 2011), pp. 23469-23474 [abstract.cfm], [doi]  [abs]
4. L. Tang and T. Yoshie, Light Localization in Woodpile Photonic Crystal Built via Two-Directional Etching Method, IEEE Journal of Quantum Electronics, vol. 47 no. 7 (July, 2011), pp. 1028-1035 [JQE.2011.2152367], [doi]  [abs]
5. S.-Y. Su, L. Tang and T. Yoshie, Optical surface Bloch modes of complete photonic bandgap materials as a basis of optical sensing, Optics Letters, vol. 36 no. 12 (June 8, 2011), pp. 2266-2268 [abstract.cfm], [doi]  [abs]