Search results for "Quantum process"

showing 10 items of 47 documents

Information-flux approach to multiple-spin dynamics

2007

We introduce and formalize the concept of information flux in a many-body register as the influence that the dynamics of a specific element receive from any other element of the register. By quantifying the information flux in a protocol, we can design the most appropriate initial state of the system and, noticeably, the distribution of coupling strengths among the parts of the register itself. The intuitive nature of this tool and its flexibility, which allow for easily manageable numerical approaches when analytic expressions are not straightforward, are greatly useful in interacting many-body systems such as quantum spin chains. We illustrate the use of this concept in quantum cloning an…

PhysicsUNIVERSALQuantum networkQuantum PhysicsQuantum dynamicsFOS: Physical sciencesQuantum channelMathematical Physics (math-ph)Atomic and Molecular Physics and OpticsCondensed Matter - Other Condensed MatterOpen quantum systemQUANTUM CLONINGQuantum processQuantum mechanicsSTATE TRANSFERStatistical physicsCHAINSQuantum informationQuantum cloningQuantum information scienceQuantum Physics (quant-ph)Mathematical PhysicsOther Condensed Matter (cond-mat.other)
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From where do quantum groups come?

1993

The phase space realizations of quantum groups are discussed using *-products. We show that on phase space, quantum groups appear necessarily as two-parameter deformation structures, one parameter (v) being concerned with the quantization in phase space, the other (η) expressing the quantum groups as “deformation” of their Lie counterparts. Introducing a strong invariance condition, we show the uniqueness of the η-deformation. This suggests that the strong invariance condition is a possible origin of the quantum groups.

Quantization (physics)POVMCanonical quantizationQuantum processPhase spaceQuantum mechanicsQuantum operationGeneral Physics and AstronomyQuantum phasesGroup theoryMathematicsFoundations of Physics
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Soliton Statistical Mechanics: Statistical Mechanics of the Quantum and Classical Integrable Models

1988

It is shown how the Bethe Ansatz (BA) analysis for the quantum statistical mechanics of the Nonlinear Schrodinger Model generalises to the other quantum integrable models and to the classical statistical mechanics of the classical integrable models. The bose-fermi equivalence of these models plays a fundamental role even at classical level. Two methods for calculating the quantum or classical free energies are developed: one generalises the BA method the other uses functional integral methods. The familiar classical action-angle variables of the integrable models developed for the real line R are used throughout, but the crucial importance of periodic boundary conditions is recognized and t…

Quantization (physics)Quantum dynamicsQuantum processMethod of quantum characteristicsQuantum inverse scattering methodQuantum statistical mechanicsQuantum dissipationQuantum chaosMathematical physicsMathematics
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Quantum fluctuations and coherence in high-precision single-electron capture.

2012

The phase of a single quantum state is undefined unless the history of its creation provides a reference point. Thus quantum interference may seem hardly relevant for the design of deterministic single-electron sources which strive to isolate individual charge carriers quickly and completely. We provide a counterexample by analyzing the non-adiabatic separation of a localized quantum state from a Fermi sea due to a closing tunnel barrier. We identify the relevant energy scales and suggest ways to separate the contributions of quantum non-adiabatic excitation and backtunneling to the rare non-capture events. In the optimal regime of balanced decay and non-adiabaticity, our simple electron tr…

Quantum phase transitionPhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsQuantum limitFOS: Physical sciencesGeneral Physics and AstronomyQuantum phasesQuantum imagingQuantum stateQuantum mechanicsQuantum processMesoscale and Nanoscale Physics (cond-mat.mes-hall)Amplitude damping channelQuantum fluctuationPhysical review letters
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Quantum repulsive Nonlinear Schrödinger models and their ‘Superconductivity’

1995

Abstract The fundamental role played by the quantum repulsive Nonlinear Schrodinger (NLS) equation in the evolution of our understanding of the phenomenon of superconductivity in appropriate metals at very low temperatures is surveyed. The first major work was that in 1947 by N. N. Bogoliubov, who studied the very physical 3-space-dimensions problem and super fluidity; and the survey takes the form of an actual dedication to that outstanding scientist who died four years ago. The 3-space-dimensions NLS equation is not integrable either classically or quantum mechanically. But a number of recently discovered closely related lattices in one space dimension (one space plus one time dimension) …

Quantum phase transitionPhysicsGeneral MathematicsApplied MathematicsQuantum dynamicsGeneral Physics and AstronomyStatistical and Nonlinear Physicssymbols.namesakeTheoretical physicsQuantum mechanicsQuantum processsymbolsQuantum operationQuantum inverse scattering methodQuantum dissipationQuantumSchrödinger's catChaos, Solitons & Fractals
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The quantum trajectory approach to geometric phase for open systems

2005

The quantum jump method for the calculation of geometric phase is reviewed. This is an operational method to associate a geometric phase to the evolution of a quantum system subjected to decoherence in an open system. The method is general and can be applied to many different physical systems, within the Markovian approximation. As examples, two main source of decoherence are considered: dephasing and spontaneous decay. It is shown that the geometric phase is to very large extent insensitive to the former, i.e. it is independent of the number of jumps determined by the dephasing operator.

Quantum phase transitionPhysicsNuclear and High Energy PhysicsQuantum decoherenceDecoherence-free subspacesDephasingquantum computationGeometric phaseGeneral Physics and AstronomyAstronomy and AstrophysicsOpen quantum systemClassical mechanicsQuantum error correctionQuantum processQuantum dissipationdecoherence
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Observability of the sign of wave functions

1976

A change of the phase factor of -1 in the wave function of a molecular quantum system leads to observable consequences in transition probabilities between molecular quantum states in accordance with quantum-mechanical calculations.

Quantum phase transitionPhysicsQuantum discordQuantum stateQuantum mechanicsQuantum electrodynamicsQuantum processQuantum systemQuantum phasesWave function collapseWave functionPhysical Review D
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Holonomic Quantum Computation

2008

In this brief review we describe the idea of holonomic quantum computation. The idea of geometric phase and holonomy is introduced in a general way and we provide few examples that should help the reader understand the issues involved.

Quantum technologyAlgebraPhysicsQuantum PhysicsOpen quantum systemClassical mechanicsHolonomicQuantum error correctionQuantum processQuantum operationQuantum algorithmHolonomy Quantum computationQuantum computer
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Steering distillation processes through quantum Zeno dynamics

2005

A quantum system in interaction with a repeatedly measured one undergoes a nonunitary time evolution and is pushed into a subspace substantially determined by the two-system coupling. The possibility of suitably modifying such an evolution through quantum Zeno dynamics (i.e., the generalized quantum Zeno effect) addressing the system toward an a priori decided target subspace is illustrated. Applications and their possible realizations in the context of trapped ions are also discussed.

Quantum technologyPhysicsQuantum probabilityOpen quantum systemQuantum discordClassical mechanicsQuantum processQuantum dynamicsQuantum operationQuantum PhysicsAtomic and Molecular Physics and OpticsQuantum Zeno effectPhysical Review A
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Quantum control and long-range quantum correlations in dynamical Casimir arrays

2015

The recent observation of the dynamical Casimir effect in a modulated superconducting waveguide, coronating thirty years of world-wide research, empowered the quantum technology community with a powerful tool to create entangled photons on-chip. In this work we show how, going beyond the single waveguide paradigm using a scalable array, it is possible to create multipartite nonclassical states, with the possibility to control the long-range quantum correlations of the emitted photons. In particular, our finite-temperature theory shows how maximally entangled $NOON$ states can be engineered in a realistic setup. The results here presented open the way to new kinds of quantum fluids of light,…

RADIATION VACUUMPhysicsQuantum PhysicsQuantum discordQuantum networkQuantum sensorCavity quantum electrodynamicsFOS: Physical sciencesDynamical Casimir Effect Quantum Control Long-range quantum correlationsQuantum imagingAtomic and Molecular Physics and OpticsQuantum technologyOpen quantum systemVACUUMQuantum processQuantum mechanicsRADIATIONQuantum Physics (quant-ph)Physical Review A
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