Journal ArticleDOI
Probing Quantum Commutation Rules by Addition and Subtraction of Single Photons to/from a Light Field
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TLDR
This work experimentally implemented simple alternated sequences of photon creation and annihilation on a thermal field and used quantum tomography to verify the peculiar character of the resulting light states, representing a step toward the full quantum control of a field.Abstract:
The possibility of arbitrarily "adding" and "subtracting" single photons to and from a light field may give access to a complete engineering of quantum states and to fundamental quantum phenomena. We experimentally implemented simple alternated sequences of photon creation and annihilation on a thermal field and used quantum tomography to verify the peculiar character of the resulting light states. In particular, as the final states depend on the order in which the two actions are performed, we directly observed the noncommutativity of the creation and annihilation operators, one of the cardinal concepts of quantum mechanics, at the basis of the quantum behavior of light. These results represent a step toward the full quantum control of a field and may provide new resources for quantum information protocols.read more
Citations
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Continuous-variable optical quantum-state tomography
A. I. Lvovsky,Michael G. Raymer +1 more
TL;DR: In this paper, a review of the latest developments in continuous-variable quantum-state tomography of optical fields and photons, placing a special emphasis on its practical aspects and applications in quantum information technology, is presented.
Journal ArticleDOI
Probing Planck-scale physics with quantum optics
Igor Pikovski,Michael R. Vanner,Markus Aspelmeyer,Myungshik Kim,Časlav Brukner,Časlav Brukner +5 more
TL;DR: In this article, a quantum optical control and readout of a quantum oscillator with a mass close to the Planck mass is used to explore possible deviations from the quantum commutation relation.
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Manipulation of multiphoton entanglement in waveguide quantum circuits
TL;DR: In this paper, a waveguide circuit is used to generate two-and four-photon entangled states and their interference tuned for a single photon and multiple photons, respectively, in order to achieve adaptive and reconfigurable photonic quantum circuits for all quantum states of light.
Journal ArticleDOI
A high-fidelity noiseless amplifier for quantum light states
TL;DR: In this paper, a probabilistic noiseless linear amplifier based on photon addition and subtraction is proposed to enable coherent states to be amplified to the highest levels of effective gain and final-state fidelity.
Journal ArticleDOI
Generation of hybrid entanglement of light
Hyunseok Jeong,Alessandro Zavatta,Minsu Kang,Seung-Woo Lee,Luca S. Costanzo,Samuele Grandi,Timothy C. Ralph,Marco Bellini +7 more
TL;DR: In this article, a hybrid entanglement between a quantum single-photon qubit state and a classical one is experimentally generated by quantum-mechanically superposing non-Gaussian operations on distinct modes.
References
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Measuring the Quantum State of Light
TL;DR: In this paper, the authors present a method for simultaneous measurement of position and momentum in a simple optical instrument with respect to the quantum theory of light and quasiprobability distribution.
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Measuring the Quantum State of Light
TL;DR: In this paper, the authors present a method for simultaneous measurement of position and momentum in a simple optical instrument with respect to the quantum theory of light and quasiprobability distribution.
Journal ArticleDOI
Quantum-to-Classical Transition with Single-Photon-Added Coherent States of Light
TL;DR: The experimental generation of single-photon–added coherent states and their complete characterization by quantum tomography are reported and allow one to witness the gradual change from the spontaneous to the stimulated regimes of light emission.
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Distilling Gaussian states with Gaussian operations is impossible.
TL;DR: It is shown that no distillation protocol for Gaussian quantum states exists that relies on (i) arbitrary local unitary operations that preserve the Gaussian character of the state and (ii) homodyne detection together with classical communication and postprocessing by means of local Gaussian unitARY operations on two symmetric identically prepared copies.
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Non-Gaussian statistics from individual pulses of squeezed light.
TL;DR: The experimental observation of a degaussification protocol, mapping individual femtosecond pulses of squeezed light onto non-Gaussian states by using only simple linear optical elements is described.