Proposal for a Bell test in cavity optomagnonics
暂无分享,去创建一个
Xiu Lin | Xiang Chen | Hong-Yi Xie | C. Liao | Le-Wei He | Zhi-Gao Shi | Le‐Wei He
[1] Q. Gong,et al. Remote Generation of Magnon Schrödinger Cat State via Magnon-Photon Entanglement. , 2021, Physical review letters.
[2] Hong Tang,et al. Cavity magnonics , 2021, Physics Reports.
[3] J. You,et al. Remote magnon entanglement between two massive ferrimagnetic spheres via cavity optomagnonics , 2021, Physical Review A.
[4] A. Karenowska,et al. Spin cat states in ferromagnetic insulators , 2021 .
[5] S. V. Kusminskiy,et al. Cavity Optomagnonics , 2019, Optomagnonic Structures.
[6] Cong Cao,et al. Photon excitation and photon-blockade effects in optomagnonic microcavities , 2019, Physical Review A.
[7] W. Kwok,et al. Strong Coupling between Magnons and Microwave Photons in On-Chip Ferromagnet-Superconductor Thin-Film Devices. , 2019, Physical review letters.
[8] M. Yung,et al. Steady Bell State Generation via Magnon-Photon Coupling. , 2019, Physical review letters.
[9] Y. Nakamura,et al. Helicity-Changing Brillouin Light Scattering by Magnons in a Ferromagnetic Crystal. , 2019, Physical review letters.
[10] M. Yung,et al. Enhancement of magnon-magnon entanglement inside a cavity , 2019, Physical Review B.
[11] Y. Blanter,et al. Optimal mode matching in cavity optomagnonics , 2019, Physical Review B.
[12] Luqiao Liu,et al. Strong Coupling between Microwave Photons and Nanomagnet Magnons. , 2019, Physical review letters.
[13] Yasunobu Nakamura,et al. Hybrid quantum systems based on magnonics , 2019, Applied Physics Express.
[14] S. V. Kusminskiy,et al. Magnon heralding in cavity optomagnonics , 2018, Physical Review A.
[15] S. Wehner,et al. Quantum internet: A vision for the road ahead , 2018, Science.
[16] Shi-Yao Zhu,et al. Magnon-Photon-Phonon Entanglement in Cavity Magnomechanics. , 2018, Physical review letters.
[17] Markus Aspelmeyer,et al. Optomechanical Bell Test. , 2018, Physical review letters.
[18] F. Marquardt,et al. Cavity optomagnonics with magnetic textures: Coupling a magnetic vortex to light , 2018, Physical Review B.
[19] Gerrit E W Bauer,et al. Optical Cooling of Magnons. , 2018, Physical review letters.
[20] Y. Blanter,et al. Selection rules for cavity-enhanced Brillouin light scattering from magnetostatic modes , 2018, Physical Review B.
[21] Y. Nakamura,et al. Orbital angular momentum conservation in Brillouin light scattering within a ferromagnetic sphere , 2017, New Journal of Physics.
[22] Y. Nakamura,et al. Brillouin Light Scattering by Magnetic Quasivortices in Cavity Optomagnonics. , 2017, Physical review letters.
[23] Shi-Yao Zhu,et al. Einstein-Podolsky-Rosen steering and Bell nonlocality of two macroscopic mechanical oscillators in optomechanical systems , 2017, 1710.02813.
[24] J. You,et al. Bistability of Cavity Magnon Polaritons. , 2017, Physical review letters.
[25] Y. Blanter,et al. Light scattering by magnons in whispering gallery mode cavities , 2017, 1706.04106.
[26] F. Reinhard,et al. Quantum sensing , 2016, 1611.02427.
[27] Yasunobu Nakamura,et al. Resolving quanta of collective spin excitations in a millimeter-sized ferromagnet , 2016, Science Advances.
[28] J. Haigh,et al. Triple-Resonant Brillouin Light Scattering in Magneto-Optical Cavities. , 2016, Physical review letters.
[29] H. Tang,et al. Optomagnonics in Magnetic Solids , 2016, 1604.07052.
[30] H. Tang,et al. Coupled spin-light dynamics in cavity optomagnonics , 2016, 1604.07053.
[31] Yasunobu Nakamura,et al. Bidirectional conversion between microwave and light via ferromagnetic magnons , 2016, 1601.03908.
[32] H. Tang,et al. Cavity magnomechanics , 2015, Science Advances.
[33] E. Knill,et al. A strong loophole-free test of local realism , 2015, 2016 Conference on Lasers and Electro-Optics (CLEO).
[34] A. Zeilinger,et al. Significant-Loophole-Free Test of Bell's Theorem with Entangled Photons. , 2015, Physical review letters.
[35] S. Wehner,et al. Loophole-free Bell inequality violation using electron spins separated by 1.3 kilometres , 2015, Nature.
[36] H. Tang,et al. Optomagnonic Whispering Gallery Microresonators. , 2015, Physical review letters.
[37] Yasunobu Nakamura,et al. Cavity Optomagnonics with Spin-Orbit Coupled Photons. , 2015, Physical review letters.
[38] K. Hammerer,et al. Proposal to Test Bell's Inequality in Electromechanics. , 2015, Physical review letters.
[39] C. Galland,et al. Proposal for an Optomechanical Bell Test. , 2015, Physical review letters.
[40] Yasunobu Nakamura,et al. Coherent coupling between a ferromagnetic magnon and a superconducting qubit , 2014, Science.
[41] Michael E. Tobar,et al. High Cooperativity Cavity QED with Magnons at Microwave Frequencies , 2014, 1408.2905.
[42] H. Tang,et al. Strongly coupled magnons and cavity microwave photons. , 2014, Physical review letters.
[43] Yasunobu Nakamura,et al. Hybridizing ferromagnetic magnons and microwave photons in the quantum limit. , 2014, Physical review letters.
[44] Nicolas Gisin,et al. Heralded single-phonon preparation, storage, and readout in cavity optomechanics. , 2013, Physical review letters.
[45] S. Wehner,et al. Bell Nonlocality , 2013, 1303.2849.
[46] F. Hocke,et al. High cooperativity in coupled microwave resonator ferrimagnetic insulator hybrids. , 2012, Physical review letters.
[47] R. Chaves,et al. Robust nonlocality tests with displacement-based measurements , 2012, 1202.3049.
[48] M. Aspelmeyer,et al. Quantum entanglement and teleportation in pulsed cavity optomechanics , 2011, 1108.2586.
[49] M. Flatté,et al. Strong field interactions between a nanomagnet and a photonic cavity. , 2010, Physical review letters.
[50] Seung-Woo Lee,et al. Testing quantum nonlocality by generalized quasiprobability functions , 2009, 0908.0541.
[51] H. J. Kimble,et al. The quantum internet , 2008, Nature.
[52] G. Björk,et al. Experimental demonstration of single photon nonlocality. , 2003, Physical review letters.
[53] J. Cirac,et al. Long-distance quantum communication with atomic ensembles and linear optics , 2001, Nature.
[54] C. Monroe,et al. Experimental violation of a Bell's inequality with efficient detection , 2001, Nature.
[55] Walmsley,et al. Violation of Bell's inequality by a generalized einstein-podolsky-rosen state using homodyne detection , 2000, Physical review letters.
[56] H. Weinfurter,et al. Violation of Bell's Inequality under Strict Einstein Locality Conditions , 1998, quant-ph/9810080.
[57] K. Banaszek,et al. TESTING QUANTUM NONLOCALITY IN PHASE SPACE , 1998, quant-ph/9806068.
[58] Matteo G. A. Paris,et al. Displacement operator by beam splitter , 1996 .
[59] Shih,et al. New high-intensity source of polarization-entangled photon pairs. , 1995, Physical review letters.
[60] L. Hardy,et al. Nonlocality of a single photon revisited. , 1994, Physical review letters.
[61] Milburn,et al. All-optical versus electro-optical quantum-limited feedback. , 1994, Physical review. A, Atomic, molecular, and optical physics.
[62] Collett,et al. Nonlocality of a single photon. , 1991, Physical review letters.
[63] J. Rarity,et al. Experimental violation of Bell's inequality based on phase and momentum. , 1990, Physical review letters.
[64] Shih,et al. New type of Einstein-Podolsky-Rosen-Bohm experiment using pairs of light quanta produced by optical parametric down conversion. , 1988, Physical review letters.
[65] P. Grangier,et al. Experimental Tests of Realistic Local Theories via Bell's Theorem , 1981 .
[66] Randall C. Thompson,et al. Experimental Test of Local Hidden-Variable Theories , 1976 .
[67] A. Shimony,et al. Proposed Experiment to Test Local Hidden Variable Theories. , 1969 .