Nonlinear interferometers in quantum optics
暂无分享,去创建一个
[1] Z. Y. Ou,et al. MULTI-PHOTON INTERFERENCE AND TEMPORAL DISTINGUISHABILITY OF PHOTONS , 2007, 0708.0077.
[2] Generation of continuous variable Einstein-Podolsky-Rosen entanglement via the Kerr nonlinearity in an optical fiber. , 2001, Physical review letters.
[3] Von Welch,et al. Reproducing GW150914: The First Observation of Gravitational Waves From a Binary Black Hole Merger , 2016, Computing in Science & Engineering.
[4] M. Chekhova,et al. Generation and direct detection of broadband mesoscopic polarization-squeezed vacuum. , 2009, Physical review letters.
[5] Joshua A. Slater,et al. Flexible source of nondegenerate entangled photons based on a two-crystal Sagnac interferometer , 2013, 1305.0986.
[6] Herzog,et al. Frustrated two-photon creation via interference. , 1994, Physical review letters.
[7] P. Lam,et al. High efficiency coherent optical memory with warm rubidium vapour , 2010, Nature communications.
[8] Observation of a nonlocal Pancharatnam phase shift in the process of induced coherence without induced emission. , 1994, Physical review. A, Atomic, molecular, and optical physics.
[9] S. R. Garner,et al. Coherent control of optical information with matter wave dynamics , 2007, Nature.
[10] Eun Seong Lee,et al. Measurement of nonresonant third-order susceptibilities of various gases by the nonlinear interferometric technique , 1995 .
[11] Abrams,et al. Quantum interferometric optical lithography: exploiting entanglement to beat the diffraction limit , 1999, Physical review letters.
[12] B. Yurke,et al. Squeezed-light-enhanced polarization interferometer. , 1987, Physical review letters.
[13] Eric Lantz,et al. Parametric amplification of images , 1997 .
[14] R. Pooser,et al. Entangled Images from Four-Wave Mixing , 2008, Science.
[15] M. Chekhova,et al. Three-wave interference with participation of polaritons , 2001 .
[16] Time- and frequency-domain polariton interference , 2011, 1107.0507.
[17] G. Leuchs,et al. Polarization squeezing of intense pulses with a fiber-optic Sagnac interferometer , 2003, quant-ph/0302100.
[18] Z. Y. Ou,et al. FUNDAMENTAL QUANTUM LIMIT IN PRECISION PHASE MEASUREMENT , 1997 .
[19] Taehyun Kim,et al. Phase-stable source of polarization-entangled photons using a polarization Sagnac interferometer , 2006, 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference.
[20] J. Ward,et al. Nonlinear-optical measurement of dispersion in gases. , 1972, Applied optics.
[21] Polarization squeezing of continuous variable stokes parameters. , 2001, Physical review letters.
[22] S. Kovalev,et al. A Method of Calibration of Terahertz Wave Brightness Under Nonlinear-Optical Detection , 2011 .
[23] First-order interference of nonclassical light emitted spontaneously at different times , 1999, quant-ph/9911014.
[24] Anton Zeilinger,et al. Theory of quantum imaging with undetected photons , 2015, 1504.00402.
[25] Three-photon interference: Spectroscopy of linear and nonlinear media , 1998 .
[26] L. Mandel,et al. Induced coherence and indistinguishability in optical interference. , 1991, Physical review letters.
[27] A. V. Belinsky,et al. Interference of classical and non-classical light , 1992 .
[28] C. Fabre,et al. Wavelength-multiplexed quantum networks with ultrafast frequency combs , 2013, Nature Photonics.
[29] P. Kumar,et al. Measurement of quantum-noise correlations in parametric image amplification. , 1998, Optics express.
[30] Weiping Zhang,et al. Atom-light hybrid interferometer , 2015, 2016 Progress in Electromagnetic Research Symposium (PIERS).
[31] Two-photon interference in the presence of absorption , 2004 .
[32] Sergei P. Kulik,et al. Polarization state of a biphoton: Quantum ternary logic , 1999 .
[33] Barbosa,et al. Control of visibility in the interference of signal photons by delays imposed on the idler photons. , 1993, Physical review. A, Atomic, molecular, and optical physics.
[34] Ou,et al. Observation of nonlocal interference in separated photon channels. , 1990, Physical review letters.
[35] S. Walborn,et al. Spatial correlations in parametric down-conversion , 2010, 1010.1236.
[36] R. K. Chang,et al. Relative Phase Measurement Between Fundamental and Second-Harmonic Light , 1965 .
[37] Ou,et al. Evidence for phase memory in two-photon down conversion through entanglement with the vacuum. , 1990, Physical review. A, Atomic, molecular, and optical physics.
[38] Vaidman,et al. Two interferometric complementarities. , 1995, Physical review. A, Atomic, molecular, and optical physics.
[39] M. Lukin,et al. Storage of light in atomic vapor. , 2000, Physical Review Letters.
[40] Jia Kong,et al. Quantum metrology with parametric amplifier-based photon correlation interferometers , 2014, Nature Communications.
[41] Alberto M. Marino,et al. Effect of losses on the performance of an SU(1,1) interferometer , 2012 .
[42] Jacobson,et al. Photonic de Broglie waves. , 1995, Physical review letters.
[43] L. P. Schelonka,et al. Spatial‐frequency selection using downconversion optical parametric amplification , 1989 .
[44] Rafał Demkowicz-Dobrzański,et al. The elusive Heisenberg limit in quantum-enhanced metrology , 2012, Nature Communications.
[45] Chiara Vitelli,et al. Experimental sub-Rayleigh resolution by an unseeded high-gain optical parametric amplifier for quantum lithography , 2008 .
[46] Premjeet Kumar,et al. NOISELESS OPTICAL AMPLIFICATION OF IMAGES , 1999 .
[47] D. Klyshko. Ramsey interference in two-photon parameteric scattering , 1993 .
[48] Lukin,et al. Dark-state polaritons in electromagnetically induced transparency , 2000, Physical review letters.
[49] N. Gisin,et al. Pulsed Energy-Time Entangled Twin-Photon Source for Quantum Communication , 1999 .
[50] Joshua R. Smith,et al. LIGO: the Laser Interferometer Gravitational-Wave Observatory , 1992, Science.
[51] Kimble,et al. Precision measurement beyond the shot-noise limit. , 1987, Physical review letters.
[52] Ou. Complementarity and Fundamental Limit in Precision Phase Measurement. , 1996, Physical review letters.
[53] Gisin,et al. Quantum cryptography using entangled photons in energy-time bell states , 1999, Physical review letters.
[54] Herzog,et al. Complementarity and the quantum eraser. , 1995, Physical review letters.
[55] Barbosa,et al. Spatial properties of spontaneous parametric down-conversion and their effect on induced coherence without induced emission. , 1994, Physical review. A, Atomic, molecular, and optical physics.
[56] Eric Lantz,et al. Parametric amplification of a polychromatic image , 1995 .
[57] R. Boyd,et al. Nonlinear interferometer for tailoring the frequency spectrum of bright squeezed vacuum , 2015, 1503.03406.
[58] Teich,et al. Quantum-mechanical lossless beam splitter: SU(2) symmetry and photon statistics. , 1989, Physical review. A, General physics.
[59] F. Devaux,et al. Phase sensitive parametric amplification of optical vortex beams , 2005, EQEC '05. European Quantum Electronics Conference, 2005..
[60] M. D. Lukin,et al. Phase coherence and control of stored photonic information , 2002 .
[61] Robert W Boyd,et al. Quantum spatial superresolution by optical centroid measurements. , 2011, Physical review letters.
[62] M. Chekhova,et al. Bright squeezed-vacuum source with 1.1 spatial mode. , 2014, Optics letters.
[63] Eric Lantz,et al. Spatially noiseless optical amplification of images. , 2005, Physical review letters.
[64] Sergei P. Kulik,et al. Infrared spectroscopy with visible light , 2016 .
[65] Chu,et al. Atomic interferometry using stimulated Raman transitions. , 1991, Physical review letters.
[66] W. R. Bosenberg,et al. High-efficiency and narrow-linewidth operation of a two-crystal β-BaB2O4 optical parametric oscillator , 1989 .
[67] Carlos H. Monken,et al. Measurement of the de Broglie Wavelength of a Multiphoton Wave Packet , 1999 .
[68] I. Walmsley,et al. Towards high-speed optical quantum memories , 2009, 0912.2970.
[69] D. Klyshko. Combine EPR and two-slit experiments: Interference of advanced waves , 1988 .
[70] Y. Shih,et al. Interference effects in spontaneous two-photon parametric scattering from two macroscopic regions , 1997 .
[71] Andrey B. Matsko,et al. Conversion of conventional gravitational-wave interferometers into quantum nondemolition interferometers by modifying their input and/or output optics , 2001 .
[72] Ou,et al. Realization of the Einstein-Podolsky-Rosen paradox for continuous variables. , 1992, Physical review letters.
[73] G. Agarwal,et al. Coherent-Light Boosted, Super-Sensitive, Quantum Interferometery , 2010 .
[74] M. Chekhova,et al. Spatially single-mode source of bright squeezed vacuum , 2014, 1402.2771.
[75] Jonathan P. Dowling,et al. Coherent-light-boosted, sub-shot noise, quantum interferometry , 2009, 0911.5714.
[76] Klauder,et al. SU(2) and SU(1,1) interferometers. , 1986, Physical review. A, General physics.
[77] Franson,et al. Bell inequality for position and time. , 1989, Physical review letters.
[78] Peter C Humphreys,et al. Linear optical quantum computing in a single spatial mode. , 2013, Physical review letters.
[79] A. Sørensen,et al. Quantum interface between light and atomic ensembles , 2008, 0807.3358.
[80] D. Jaksch,et al. Mapping broadband single-photon wavepackets into an atomic memory , 2007, quant-ph/0702041.
[81] Temporal indistinguishability and quantum interference , 2000 .
[82] Y. F. Huang,et al. Experimental demonstration of phase measurement precision beating standard quantum limit by projection measurement , 2007, 0710.2922.
[83] Carlos H. Monken,et al. Transfer of angular spectrum and image formation in spontaneous parametric down-conversion , 1998 .
[84] M D'Angelo,et al. Two-photon diffraction and quantum lithography. , 2001, Physical review letters.
[85] R. Menzel,et al. Phase memory across two single-photon interferometers including wavelength conversion , 2014, 1402.4361.
[86] Yamamoto,et al. Number-phase minimum-uncertainty state with reduced number uncertainty in a Kerr nonlinear interferometer. , 1986, Physical review. A, General physics.
[87] Horne,et al. Complementarity of one-particle and two-particle interference. , 1993, Physical review. A, Atomic, molecular, and optical physics.
[88] R. C. Miller,et al. Absolute Signs of Second-Harmonic Generation Coefficients of Piezoelectric Crystals , 1970 .
[89] Y. N. Polivanov. Raman scattering of light by polaritons , 1978 .
[90] S. Lloyd,et al. Advances in quantum metrology , 2011, 1102.2318.
[91] I. Walmsley,et al. Single-photon-level quantum memory at room temperature. , 2010, Physical review letters.
[92] Weiping Zhang,et al. Realization of a nonlinear interferometer with parametric amplifiers , 2011 .
[93] D. Bouwmeester,et al. Stimulated emission of polarization-entangled photons , 2001, Nature.
[94] Weiping Zhang,et al. The phase sensitivity of an SU(1,1) interferometer with coherent and squeezed-vacuum light , 2013, 1305.4769.
[95] M. Chekhova,et al. Schmidt modes in the angular spectrum of bright squeezed vacuum , 2014, 1410.6658.
[96] Z. Dutton,et al. Observation of coherent optical information storage in an atomic medium using halted light pulses , 2001, Nature.
[97] C. Caves. Quantum Mechanical Noise in an Interferometer , 1981 .
[98] ‘Which-way’ collective atomic spin excitation among atomic ensembles by photon indistinguishability , 2012 .
[99] R. W. Terhune,et al. Effects of Dispersion and Focusing on the Production of Optical Harmonics , 1962 .
[100] Classical-to-quantum transition with broadband four-wave mixing. , 2014, Physical review letters.
[101] Hong,et al. Correlated two-photon interference in a dual-beam Michelson interferometer. , 1990, Physical review. A, Atomic, molecular, and optical physics.
[102] Weiping Zhang,et al. Phase-measurement sensitivity beyond the standard quantum limit in an interferometer consisting of a parametric amplifier and a beam splitter , 2013 .
[103] S. Kulik,et al. Rozhdestvenski hooks in two-photon parametric light scattering , 2001 .
[104] Akihisa Tomita,et al. Generation of a pulsed polarization entangled photon pair using a Sagnac interferometer , 2004 .
[105] Z. Y. Ou,et al. Enhancement of the phase-measurement sensitivity beyond the standard quantum limit by a nonlinear interferometer , 2012 .
[106] J. Cirac,et al. Long-distance quantum communication with atomic ensembles and linear optics , 2001, Nature.
[107] B. Lax,et al. Coherent cancellation of background in four‐wave mixing spectroscopy , 1980 .
[108] Z. Ou. Efficient conversion between photons and between photon and atom by stimulated emission , 2008 .
[109] Mandel,et al. Observation of nonclassical effects in the interference of two photons. , 1987, Physical review letters.
[110] L. Mandel,et al. Induced coherence without induced emission. , 1991, Physical review. A, Atomic, molecular, and optical physics.
[111] P. Grangier,et al. Reduction of quantum noise in optical parametric amplification , 1993 .
[112] Ou,et al. Quantum noise reduction in optical amplification. , 1993, Physical review letters.
[113] Reid,et al. Demonstration of the Einstein-Podolsky-Rosen paradox using nondegenerate parametric amplification. , 1989, Physical review. A, General physics.
[114] Interference between spontaneous two-photon radiation from two macroscopic regions , 1997 .
[115] Olivier Pfister,et al. One-way quantum computing in the optical frequency comb. , 2008, Physical review letters.
[116] Norman F. Ramsey,et al. A Molecular Beam Resonance Method with Separated Oscillating Fields , 1950 .
[117] Hong,et al. Interference of two photons in parametric down conversion. , 1986, Physical review. A, General physics.
[118] Kyo Inoue,et al. Generation of polarization-entangled photon pairs and violation of Bell's inequality using spontaneous four-wave mixing in a fiber loop , 2004 .