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Distributed quantum sensing with measurement-after-interaction strategies. [PDF]
npj Quantum InfGuo J, Liu S, Fadel M, He Q.
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Experimentally separating vacuum fluctuations from source radiation. [PDF]
Nat CommunHerter A +4 more
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Quantum confinement dominates band gaps while defects lead the photoluminescence in silicon nanowires. [PDF]
RSC AdvDiwan A +6 more
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Introduction to ultrafast meets ultrasmall: exploring the uncharted territory of quantum dynamics. [PDF]
Nanoscale AdvRusimova KR, Siday T, Righetto M.
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A versatile large-scale coherent Ising machine from microwave to visible and telecom wavelength bands. [PDF]
Light Sci ApplZhang H, Li J, Zhu H.
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Active multiplexing for scalable generation and manipulation of photonic quantum states. [PDF]
Nano ConvergKaneda F, Yabuno M.
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Annals of the New York Academy of Sciences, 1994
This graduate textbook unifies the presentation of new and well-established basic theory and experiments for the quantum properties of light. Quantum optics has become a major field of theoretical and experimental physics. Many of the key tests of unique quantum phenomena, such as entanglement, have been demonstrated in quantum optics experiments.
Walls, D. F., Milburn, Gerard J.
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This graduate textbook unifies the presentation of new and well-established basic theory and experiments for the quantum properties of light. Quantum optics has become a major field of theoretical and experimental physics. Many of the key tests of unique quantum phenomena, such as entanglement, have been demonstrated in quantum optics experiments.
Walls, D. F., Milburn, Gerard J.
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2015 11th International Conference on Natural Computation (ICNC), 2015
Quantum computing offers a much more efficient way of computation than its classical counterpart, due to the specific characters in quantum mechanics. To realize quantum computers, one must find a specific physical system as a platform. Available systems include atoms, electrons, ions, photons and so on.
Dongyang Wang, Junjie Wu 0003, Xun Yi
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Quantum computing offers a much more efficient way of computation than its classical counterpart, due to the specific characters in quantum mechanics. To realize quantum computers, one must find a specific physical system as a platform. Available systems include atoms, electrons, ions, photons and so on.
Dongyang Wang, Junjie Wu 0003, Xun Yi
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Journal of Modern Optics, 1997
Simple physical ideas lead us to identify the phase of a single mode of the electromagnetic field as the quantity conjugate to the photon number. This in turn leads to the form of the phase probability distribution. The phase operator cannot be represented in the conventional infinite dimensional Hilbert space but can be expressed by means of a finite ...
Pegg, DT, Barnett, SM
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Simple physical ideas lead us to identify the phase of a single mode of the electromagnetic field as the quantity conjugate to the photon number. This in turn leads to the form of the phase probability distribution. The phase operator cannot be represented in the conventional infinite dimensional Hilbert space but can be expressed by means of a finite ...
Pegg, DT, Barnett, SM
openaire +2 more sources