Publications

2007
Tamboli, Adele C, Elaine D Haberer, Rajat Sharma, Kwan H Lee, Shuji Nakamura, and Evelyn L Hu. 2007. “Room-temperature continuous-wave lasing in GaN/InGaN microdisks.” NATURE PHOTONICS 1: 61-64.
Wang, CF, R Hanson, DD Awschalom, EL Hu, T Feygelson, J Yang, and JE Butler. 2007. “Fabrication and characterization of two-dimensional photonic crystal microcavities in nanocrystalline diamond.” APPLIED PHYSICS LETTERS 91.
Hennessy, K, A Badolato, M Winger, D Gerace, M Atatuere, S Gulde, S Faelt, EL Hu, and A Imamoglu. 2007. “Quantum nature of a strongly coupled single quantum dot-cavity system.” NATURE 445: 896-899.
2006
Zakharov, Dmitri N, Zuzanna Liliental-Weber, Yan Gao, and Evelyn Hu. 2006. “Structural defects in Si-doped III-V nitrides.” JOURNAL OF ELECTRONIC MATERIALS 35: 1543-1546.
Davanco, M, AM Xing, JW Raring, EL Hu, and DJ Blumenthal. 2006. “Compact broadband photonic crystal filters with reduced back-reflections for monolithic InP-based photonic integrated circuits.” IEEE PHOTONICS TECHNOLOGY LETTERS 18: 1155-1157.
Davanco, Marcelo, Aimin Xing, James W Raring, Evelyn L Hu, and Daniel J Blumenthal. 2006. “Broadband notch filters based on quasi-2-D photonic crystal waveguides for InP-based monolithic photonic-integrated circuits.” IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS 12: 1164-1174.
Ravindran, S, KV Singh, GTS Andavan, M Ozkan, Y Gao, E Hu, and CS Ozkan. 2006. “Nano-patterned liquid metal electrode for the synthesis of novel Prussian blue nanotubes and nanowires.” NANOTECHNOLOGY 17: 714-718.
Strauf, S, MT Rakher, I Carmeli, K Hennessy, C Meier, A Badolato, MJA DeDood, et al. 2006. “Frequency control of photonic crystal membrane resonators by monolayer deposition.” APPLIED PHYSICS LETTERS 88.
Meier, C, K Hennessy, ED Haberer, R Sharma, YS Choi, K McGroddy, S Keller, SP DenBaars, S Nakamura, and EL Hu. 2006. “Visible resonant modes in GaN-based photonic crystal membrane cavities.” APPLIED PHYSICS LETTERS 88.
Hennessy, K, C Hoegerle, E Hu, A Badolato, and A Imamoglu. 2006. “Tuning photonic nanocavities by atomic force microscope nano-oxidation.” APPLIED PHYSICS LETTERS 89.
David, A, T Fujii, R Sharma, K McGroddy, S Nakamura, SP DenBaars, EL Hu, C Weisbuch, and H Benisty. 2006. “Photonic-crystal GaN light-emitting diodes with tailored guided modes distribution.” APPLIED PHYSICS LETTERS 88.
Strauf, S, K Hennessy, MT Rakher, YS Choi, A Badolato, LC Andreani, EL Hu, PM Petroff, and D Bouwmeester. 2006. “Self-tuned quantum dot gain in photonic crystal lasers.” PHYSICAL REVIEW LETTERS 96.
2005
Xing, AM, M Davanco, DJ Blumenthal, and EL Hu. 2005. “Transmission measurement of tapered single-line defect photonic crystal waveguides.” IEEE PHOTONICS TECHNOLOGY LETTERS 17: 2092-2094.
Davanco, M, AM Xing, J Raring, EL Hu, and DJ Blumenthal. 2005. “Detailed characterization of slow and dispersive propagation near a mini-stop-band of an InP photonic crystal waveguide..” OPTICS EXPRESS 13: 4931-4938.
Stern, NP, M Poggio, MH Bartl, EL Hu, GD Stucky, and DD Awschalom. 2005. “Spin dynamics in electrochemically charged CdSe quantum dots.” PHYSICAL REVIEW B 72.
Sharma, R, ED Haberer, C Meier, EL Hu, and S Nakamura. 2005. “Vertically oriented GaN-based air-gap distributed Bragg reflector structure fabricated using band-gap-selective photoelectrochemical etching.” APPLIED PHYSICS LETTERS 87.
Choi, YS, K Hennessy, R Sharma, E Haberer, Y Gao, SP DenBaars, S Nakamura, EL Hu, and C Meier. 2005. “GaN blue photonic crystal membrane nanocavities.” APPLIED PHYSICS LETTERS 87.
Gerardot, BD, S Strauf, MJA DeDood, AM Bychkov, A Badolato, K Hennessy, EL Hu, D Bouwmeester, and PM Petroff. 2005. “Photon statistics from coupled quantum dots.” PHYSICAL REVIEW LETTERS 95.
David, A, C Meier, R Sharma, FS Diana, SP DenBaars, E Hu, S Nakamura, C Weisbuch, and H Benisty. 2005. “Photonic bands in two-dimensionally patterned multimode GaN waveguides for light extraction.” APPLIED PHYSICS LETTERS 87.
Hennessy, K, A Badolato, A Tamboli, PM Petroff, E Hu, M Atature, J Dreiser, and A Imamoglu. 2005. “Tuning photonic crystal nanocavity modes by wet chemical digital etching.” APPLIED PHYSICS LETTERS 87.

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