Search results for " QED"

showing 10 items of 30 documents

Exciting a Bound State in the Continuum through Multi-Photon Scattering plus Delayed Quantum Feedback

2019

Excitation of a bound state in the continuum (BIC) through scattering is problematic since it is by definition uncoupled. Here, we consider a type of dressed BIC and show that it can be excited in a nonlinear system through multi-photon scattering and delayed quantum feedback. The system is a semi-infinite waveguide with linear dispersion coupled to a qubit, in which a single-photon, dressed BIC is known to exist. We show that this BIC can be populated via multi-photon scattering in the non-Markovian regime, where the photon delay time (due to the qubit-mirror distance) is comparable with the qubit's decay. A similar process excites the BIC existing in an infinite waveguide coupled to two d…

Quantum opticsPhysics---Quantum PhysicsPhotonQuantum optics waveguide QED quantum non-Markovian dynamicsScatteringGeneral Physics and AstronomyPhysics::OpticsFOS: Physical sciencesQuantum entanglementQuantum Physics01 natural sciencesSettore FIS/03 - Fisica Della MateriaQuantum mechanicsQubitExcited state0103 physical sciencesBound state010306 general physicsQuantum Physics (quant-ph)ExcitationPhysics - OpticsOptics (physics.optics)
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Dynamics of spontaneous emission in a single-end photonic waveguide

2012

We investigate the spontaneous emission of a two-level system, e.g. an atom or atomlike object, coupled to a single-end, i.e., semi-infinite, one-dimensional photonic waveguide such that one end behaves as a perfect mirror while light can pass through the opposite end with no back-reflection. Through a quantum microscopic model we show that such geometry can cause non-exponential and long-lived atomic decay. Under suitable conditions, a bound atom-photon stationary state appears in the atom-mirror interspace so as to trap a considerable amount of initial atomic excitation. Yet, this can be released by applying an atomic frequency shift causing a revival of photon emission. The resilience of…

Quantum opticsPhysicsCondensed Matter::Quantum GasesQuantum PhysicsWaveguide (electromagnetism)business.industryFOS: Physical sciencesAtomic and Molecular Physics and OpticsWaveguide QED spontaneous emissionPerfect mirrorAtomSpontaneous emissionPhysics::Atomic PhysicsAtomic physicsPhotonicsbusinessQuantum Physics (quant-ph)ExcitationStationary state
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When Casimir meets Kibble–Zurek

2012

Verification of the dynamical Casimir effect (DCE) in optical systems is still elusive due to the very demanding requirements for its experimental implementation. This typically requires very fast changes in the boundary conditions of the problem. We show that an ensemble of two-level atoms collectively coupled to the electromagnetic field of a cavity, driven at low frequencies and close to a quantum phase transition, stimulates the production of photons from the vacuum. This paves the way for an effective simulation of the DCE through a mechanism that has recently found experimental demonstration. The spectral properties of the emitted radiation reflect the critical nature of the system an…

Quantum phase transitionElectromagnetic fieldPhysicsPhotonCritical phenomenadynamical casimir effect cavity QEDCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSettore FIS/03 - Fisica Della MateriaCasimir effectQuantum mechanicsAtomBoundary value problemMathematical PhysicsBoson
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Photon Production from the Vacuum Close to the Superradiant Transition: Linking the Dynamical Casimir Effect to the Kibble-Zurek Mechanism

2012

The dynamical Casimir effect (DCE) predicts the generation of photons from the vacuum due to the parametric amplification of the quantum fluctuations of an electromagnetic field. The verification of such an effect is still elusive in optical systems due to the very demanding requirements of its experimental implementation. We show that an ensemble of two-level atoms collectively coupled to the electromagnetic field of a cavity, driven at low frequencies and close to a quantum phase transition, stimulates the production of photons from the vacuum. This paves the way to an effective simulation of the DCE through a mechanism that has recently found experimental demonstration. The spectral prop…

Quantum phase transitionKibble-Zurek mechanismElectromagnetic fieldPhysicsPhotonCavity quantum electrodynamicsGeneral Physics and AstronomyDynamical Casimir Effect Cold Atoms Cavity QEDRadiation01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasCasimir effectQuantum mechanics0103 physical sciences010306 general physicsQuantum fluctuation
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Simple scheme for extracting work with a single bath

2019

We propose a simple protocol exploiting the thermalization of a storage bipartite system S to extract work from a resource system R. The protocol is based on a recent work definition involving only a single bath. A general description of the protocol is provided without specifying the characteristics of S. We quantify both the extracted work and the ideal efficiency of the process, also giving maximum bounds for them. Then, we apply the protocol to two cases: two interacting qubits and the Rabi model. In both cases, for very strong couplings, an extraction of work comparable with the bare energies of the subsystems of S is obtained and its peak is reached for finite values of the bath tempe…

Scheme (programming language)Work (thermodynamics)Ideal (set theory)Quantum ThermodynamicSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciComputer scienceProcess (computing)Cavity QEDTopology01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasEntanglement[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]Simple (abstract algebra)QubitTransfer (computing)0103 physical sciences010306 general physicscomputerProtocol (object-oriented programming)ComputingMilieux_MISCELLANEOUScomputer.programming_language
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Measurement of the forward-backward asymmetry of e(+)e(-)-]z-]b(b)over-bar using prompt leptons and a lifetime tag

1995

The forward-backward asymmetry of the process e+e-→Z→b {Mathematical expression} has been measured using events collected by the DELPHI experiment during the 1991 and 1992 LEP runs. This data sample corresponded to 884 000 hadronic Z decays at a centre-of-mass energy {Mathematical expression}. The tagging of b-quark events was performed using two approaches; the first was based on the semileptonic decay channels b→X+μ and b→X+e, the second used a lifetime tag with jet-charge reconstruction. The results of these two methods were combined to give {Mathematical expression} With the semileptonic sample, the forward-backward asymmetry of the process e+e-→Z→ {Mathematical expression} was also mea…

Semileptonic decayParticle physicsFERMION PAIR PRODUCTIONPhysics and Astronomy (miscellaneous)LUND MONTE-CARLOENERGIESElectron–positron annihilationQED CORRECTIONSD-MESONSEMILEPTONIC DECAY01 natural sciencesJET FRAGMENTATIONb-taggingPartícules (Física nuclear)PHYSICSNuclear physics0103 physical sciencesDELPHI; forward-backward asymmetry; b-tagging; jet reconstructionFERMION PAIR PRODUCTION; LUND MONTE-CARLO; E+E-ANNIHILATION; SEMILEPTONIC DECAY; JET FRAGMENTATION; QED CORRECTIONS; FINAL-STATES; D-MESON; ENERGIES; PHYSICS010306 general physicsEngineering (miscellaneous)jet reconstructionDetectors de radiacióDELPHIPhysics010308 nuclear & particles physicsHigh Energy Physics::PhenomenologyWeinberg angleE+E-ANNIHILATIONLARGE ELECTRON POSITRON COLLIDERFINAL-STATESb-taggingPARTICLE PHYSICS; LARGE ELECTRON POSITRON COLLIDER; DELPHILarge Electron–Positron ColliderPARTICLE PHYSICSHigh Energy Physics::Experimentforward-backward asymmetryEnergy (signal processing)Particle Physics - ExperimentLeptonBar (unit)
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Production of photon states from Λ-atoms in a cavity

2019

We analyse the system of Λ-atoms in a cavity QED of semi-transparent mirror and driven by laser fields. We derive effective models and connect concepts (photonic flux, input-output operators, photonic state) characterizing the propagation of the resulting leaking photons. We propose an atom-cavity non-resonant scheme for single-and 2-photons generation. The pulse shapes of outgoing single photons are tailored using a specifically designed driving field envelope. For the production of 2-photon states, two trapped atoms are used with two driving pulses. Their pulse shapes are characterized and it is shown that the multiphoton outgoing photonic states cannot be Fock states, since the photons a…

[PHYS]Physics [physics][PHYS.PHYS.PHYS-OPTICS] Physics [physics]/Physics [physics]/Optics [physics.optics][PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][PHYS.PHYS.PHYS-ATOM-PH]Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]Physics::OpticsCavity QEDH2020 MSCA-ITN[PHYS] Physics [physics][PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]Physics::Atomic PhysicsLIMQUET[PHYS.PHYS.PHYS-ATOM-PH] Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]Single Photon[PHYS.QPHY] Physics [physics]/Quantum Physics [quant-ph]
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Atomic emission and photon localization in 1D microcavity array

cavity QEDphoton localizationSettore FIS/03 - Fisica Della Materiapopulation trapping
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Controlling Atom-Photon Bound States in an Array of Josephson-Junction Resonators

2022

Engineering the electromagnetic environment of a quantum emitter gives rise to a plethora of exotic light -matter interactions. In particular, photonic lattices can seed long-lived atom-photon bound states inside photonic band gaps. Here, we report on the concept and implementation of a novel microwave architecture consisting of an array of compact superconducting resonators in which we have embedded two frequency -tunable artificial atoms. We study the atom-field interaction and access previously unexplored coupling regimes, in both the single-and double-excitation subspace. In addition, we demonstrate coherent interactions between two atom-photon bound states, in both resonant and dispers…

quantumPhotonics:Física [Àrees temàtiques de la UPC]latticesFotònicaedgeGeneral Physics and Astronomylight-matter interactionsCircuit QED. Waveguide QED. Quantum information processing implementationsSettore FIS/03 - Fisica Della Materia
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Non-Hermiticity in Quantum Physics

2022

The field of non-Hermitian Physics has attracted great attention over the last 23years, both from the in the physical and mathematical communities. From the physical point of view, non-Hermiticity was regarded as a phenomenological tool to describe open quantum systems. Besides this, the rising interest in this field comes especially from the possible exploitation of exceptional points for quantum technologies, and from the exotic topology arising in periodic non-Hermitian systems, connected to the so called non-Hermitian skin effect. From the mathematical point of view, the range of possible topics to investigate has been wide open, as dropping an hypothesis of a theory makes the mathemati…

waveguide QEDNon-Hermitian PhysicQuantum OpticSettore FIS/03 - Fisica Della Materia
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