Electrically driven single-photon source at room temperature in diamond
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Toshiharu Makino | Hideyo Okushi | Satoshi Yamasaki | Fedor Jelezko | Norikazu Mizuochi | Adam Gali | Philipp Neumann | Daisuke Takeuchi | Jörg Wrachtrup | F. Jelezko | J. Wrachtrup | S. Yamasaki | Á. Gali | H. Okushi | D. Takeuchi | M. Ogura | P. Neumann | N. Mizuochi | T. Makino | H. Kato | M. Ogura | H. Kato | Mutsuo Ogura | Hiromitsu Kato | Maximilian Nothaft | J. Wrachtrup | M. Nothaft | S. Yamasaki | Á. Gali | Jörg Wrachtrup | Maximilian Nothaft | J. Wrachtrup
[1] J. Roch,et al. Diamond based light-emitting diode for visible single-photon emission at room temperature , 2011 .
[2] S. Yamasaki,et al. Enhancement in emission efficiency of diamond deep-ultraviolet light emitting diode , 2011 .
[3] Igor Aharonovich,et al. Diamond-based single-photon emitters , 2011 .
[4] M. Stutzmann,et al. Chemical control of the charge state of nitrogen-vacancy centers in diamond , 2010, 1011.5109.
[5] Lee C. Bassett,et al. Spin-Light Coherence for Single-Spin Measurement and Control in Diamond , 2010, Science.
[6] Yoshihisa Yamamoto,et al. Single-photon Devices and Applications , 2010 .
[7] D. Ritchie,et al. An entangled-light-emitting diode , 2010, Nature.
[8] L. Jiang,et al. Quantum entanglement between an optical photon and a solid-state spin qubit , 2010, Nature.
[9] P. Hemmer,et al. A diamond nanowire single-photon source. , 2009, Nature nanotechnology.
[10] D. D. Awschalom,et al. Gigahertz Dynamics of a Strongly Driven Single Quantum Spin , 2009, Science.
[11] Adam Gali,et al. Theory of the neutral nitrogen-vacancy center in diamond and its application to the realization of a qubit , 2009 .
[12] S. Shikata,et al. Cathodoluminescence characterization of a nitrogen-doped homoepitaxial diamond thin film , 2009 .
[13] M. Markham,et al. Ultralong spin coherence time in isotopically engineered diamond. , 2009, Nature materials.
[14] J. Wrachtrup,et al. Coherence of single spins coupled to a nuclear spin bath of varying density , 2008, 0811.4731.
[15] J. Wrachtrup,et al. Multipartite Entanglement Among Single Spins in Diamond , 2008, Science.
[16] D. Twitchen,et al. Electron paramagnetic resonance studies of the neutral nitrogen vacancy in diamond , 2008 .
[17] Larry A. Coldren,et al. High-frequency single-photon source with polarization control , 2007 .
[18] L. Jiang,et al. Quantum Register Based on Individual Electronic and Nuclear Spin Qubits in Diamond , 2007, Science.
[19] Philippe Grangier,et al. Experimental Realization of Wheeler's Delayed-Choice Gedanken Experiment , 2006, Science.
[20] Yasuhiko Arakawa,et al. A gallium nitride single-photon source operating at 200 K , 2006, Nature materials.
[21] S. Sze,et al. Physics of Semiconductor Devices: Sze/Physics , 2006 .
[22] A. A. Bergman,et al. Diamond light emitting diode activated with Xe optical centers , 2006 .
[23] Herbert Walther,et al. Continuous generation of single photons with controlled waveform in an ion-trap cavity system , 2004, Nature.
[24] P. Grangier,et al. Single photon quantum cryptography. , 2002, Physical review letters.
[25] G. Rempe,et al. Deterministic single-photon source for distributed quantum networking. , 2002, Physical review letters.
[26] Michael Pepper,et al. Electrically Driven Single-Photon Source , 2001, Science.
[27] Kenji Watanabe,et al. Ultraviolet Emission from a Diamond pn Junction , 2001, Science.
[28] P. Petroff,et al. A quantum dot single-photon turnstile device. , 2000, Science.
[29] W. Moerner,et al. Single photons on demand from a single molecule at room temperature , 2000, Nature.
[30] Mayer,et al. Stable solid-state source of single photons , 2000, Physical review letters.
[31] S. M. Sze,et al. Physics of semiconductor devices , 1969 .