Search results for "Wigner function"

showing 4 items of 4 documents

Synchronization of optical photons for quantum information processing

2015

We observe the Hong-Ou-Mandel interference via homodyne tomography on two photons extracted from two quantum memories.

PhotonFOS: Physical sciencesquantum memory02 engineering and technology01 natural scienceshomodyne measurementOpticsquantum state tomographySpontaneous parametric down-conversionparametric down conversion0103 physical sciencesQuantum information processingWigner distribution functionWigner functionHumansHong–Ou–Mandel effectquantum optics010306 general physicsResearch ArticlesQuantum opticsPhysicsQuantum PhysicsHong-Ou-Mandel effectPhotonsMultidisciplinaryconcatenated cavitybusiness.industrySciAdv r-articlesOpticsQuantum tomographyModels Theoretical021001 nanoscience & nanotechnologyQubitQuantum Theorysingle photonPhotonicsQuantum Physics (quant-ph)0210 nano-technologybusinessResearch ArticleScience Advances
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Proposal of a Computational Approach for Simulating Thermal Bosonic Fields in Phase Space

2019

When a quantum field is in contact with a thermal bath, the vacuum state of the field may be generalized to a thermal vacuum state, which takes into account the thermal noise. In thermo field dynamics, this is realized by doubling the dimensionality of the Fock space of the system. Interestingly, the representation of thermal noise by means of an augmented space is also found in a distinctly different approach based on the Wigner transform of both the field operators and density matrix, which we pursue here. Specifically, the thermal noise is introduced by augmenting the classical-like Wigner phase space by means of Nos&eacute

PhysicsDensity matrixQuantum PhysicsField (physics)Vacuum statebosonic fieldFOS: Physical sciencesFock spacemolecular dynamics simulationPhase spaceBosonic fieldWigner distribution functionWigner functionStatistical physicsQuantum field theoryWigner function bosonic field temperature control molecular dynamics simulationQuantum Physics (quant-ph)temperature controlPhysics
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A study of Wigner functions for discrete-time quantum walks

2013

We perform a systematic study of the discrete time Quantum Walk on one dimension using Wigner functions, which are generalized to include the chirality (or coin) degree of freedom. In particular, we analyze the evolution of the negative volume in phase space, as a function of time, for different initial states. This negativity can be used to quantify the degree of departure of the system from a classical state. We also relate this quantity to the entanglement between the coin and walker subspaces.

Work (thermodynamics)Quantum WalkQuantum PhysicsWigner FunctionNegativityFísicaFOS: Physical sciencesNegativity effectGeneral ChemistryCondensed Matter PhysicsComputational MathematicsDiscrete time and continuous timeQuantum mechanicsWigner distribution functionGeneral Materials ScienceQuantum walkElectrical and Electronic EngineeringQuantum Physics (quant-ph)Mathematical physicsMathematics
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Balance equations-based properties of the Rabi Hamiltonian

2014

A stationary physical system satisfies peculiar balance conditions involving mean values of appropriate observables. In this paper we show how to deduce such quantitative links, named balance equations, demonstrating as well their usefulness in bringing to light physical properties of the system without solving the Schrodinger equation. The knowledge of such properties in the case of Rabi Hamiltonian is exploit to provide arguments to make easier the variational engineering of the ground state of this model.

ground state variational approach Wigner function Rabi model balance equationsQuantum PhysicsFOS: Physical sciencesMathematical Physics (math-ph)Quantum Physics (quant-ph)Mathematical Physics
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