Search results for "quant-ph"

showing 10 items of 1378 documents

Cauchy flights in confining potentials

2009

We analyze confining mechanisms for L\'evy flights evolving under an influence of external potentials. Given a stationary probability density function (pdf), we address the reverse engineering problem: design a jump-type stochastic process whose target pdf (eventually asymptotic) equals the preselected one. To this end, dynamically distinct jump-type processes can be employed. We demonstrate that one "targeted stochasticity" scenario involves Langevin systems with a symmetric stable noise. Another derives from the L\'evy-Schr\"odinger semigroup dynamics (closely linked with topologically induced super-diffusions), which has no standard Langevin representation. For computational and visualiz…

Statistics and ProbabilityPhysicsQuantum PhysicsStationary distributionStatistical Mechanics (cond-mat.stat-mech)Stochastic processSemigroupMathematical analysisFOS: Physical sciencesCauchy distributionProbability density functionMathematical Physics (math-ph)Condensed Matter PhysicsLangevin equationLévy flightQuantum Physics (quant-ph)Representation (mathematics)Mathematical PhysicsCondensed Matter - Statistical Mechanics
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Non-self-adjoint Hamiltonians with complex eigenvalues

2016

Motivated by what one observes dealing with PT-symmetric quantum mechanics, we discuss what happens if a physical system is driven by a diagonalizable Hamiltonian with not all real eigenvalues. In particular, we consider the functional structure related to systems living in finite-dimensional Hilbert spaces, and we show that certain intertwining relations can be deduced also in this case if we introduce suitable antilinear operators. We also analyze a simple model, computing the transition probabilities in the broken and in the unbroken regime.

Statistics and ProbabilityPure mathematicsDiagonalizable matrixPhysical systemFOS: Physical sciencesGeneral Physics and Astronomyintertwining relation01 natural sciencesModeling and simulationPhysics and Astronomy (all)symbols.namesakePT-quantum mechanic0103 physical sciencesMathematical Physic010306 general physicsSettore MAT/07 - Fisica Matematicaantilinear operatorMathematical PhysicsEigenvalues and eigenvectorsMathematicsQuantum Physics010308 nuclear & particles physicsHilbert spaceStatistical and Nonlinear PhysicsProbability and statisticsMathematical Physics (math-ph)Modeling and SimulationsymbolsQuantum Physics (quant-ph)Hamiltonian (quantum mechanics)Self-adjoint operatorStatistical and Nonlinear PhysicJournal of Physics A: Mathematical and Theoretical
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Gibbs states defined by biorthogonal sequences

2016

Motivated by the growing interest on PT-quantum mechanics, in this paper we discuss some facts on generalized Gibbs states and on their related KMS-like conditions. To achieve this, we first consider some useful connections between similar (Hamiltonian) operators and we propose some extended version of the Heisenberg algebraic dynamics, deducing some of their properties, useful for our purposes.

Statistics and ProbabilityPure mathematicsGibbs stateGeneral Physics and AstronomyFOS: Physical sciences01 natural sciencesPhysics and Astronomy (all)symbols.namesakeSettore MAT/05 - Analisi Matematica0103 physical sciencesnon-Hermitian HamiltonianMathematical PhysicBiorthogonal sets of vectorAlgebraic number010306 general physicsSettore MAT/07 - Fisica MatematicaMathematical PhysicsMathematicsQuantum Physics010308 nuclear & particles physicsStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Modeling and SimulationBiorthogonal systemsymbolsHamiltonian (quantum mechanics)Quantum Physics (quant-ph)Statistical and Nonlinear Physic
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Partial inner product spaces, metric operators and generalized hermiticity

2013

Motivated by the recent developments of pseudo-hermitian quantum mechanics, we analyze the structure of unbounded metric operators in a Hilbert space. It turns out that such operators generate a canonical lattice of Hilbert spaces, that is, the simplest case of a partial inner product space (PIP space). Next, we introduce several generalizations of the notion of similarity between operators and explore to what extend they preserve spectral properties. Then we apply some of the previous results to operators on a particular PIP space, namely, a scale of Hilbert spaces generated by a metric operator. Finally, we reformulate the notion of pseudo-hermitian operators in the preceding formalism.

Statistics and ProbabilityPure mathematicsQuantum PhysicsSpectral propertiesHilbert spaceFOS: Physical sciencesGeneral Physics and Astronomymetric operatorStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Formalism (philosophy of mathematics)symbols.namesakeInner product spaceOperator (computer programming)pip-spacesSettore MAT/05 - Analisi MatematicaModeling and SimulationLattice (order)symbolsgeneralized hermiticityQuantum Physics (quant-ph)Mathematical PhysicsMathematics
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Discord of response

2014

The presence of quantum correlations in a quantum state is related to the state response to local unitary perturbations. Such response is quantified by the distance between the unperturbed and perturbed states, minimized with respect to suitably identified sets of local unitary operations. In order to be a bona fide measure of quantum correlations, the distance function must be chosen among those that are contractive under completely positive and trace preserving maps. The most relevant instances of such physically well behaved metrics include the trace, the Bures, and the Hellinger distance. To each of these metrics one can associate the corresponding discord of response, namely the trace,…

Statistics and ProbabilityPure mathematicsQuantum PhysicsStatistical Mechanics (cond-mat.stat-mech)quantum discordGeneral Physics and AstronomyFOS: Physical sciencesStatistical and Nonlinear PhysicsState (functional analysis)16. Peace & justiceUnitary stateMeasure (mathematics)Quantum technologyQuantum stateModeling and SimulationQuantum informationHellinger distanceQuantum Physics (quant-ph)QuantumMathematical PhysicsCondensed Matter - Statistical MechanicsMathematics
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Hamiltonians defined by biorthogonal sets

2017

In some recent papers, the studies on biorthogonal Riesz bases has found a renewed motivation because of their connection with pseudo-hermitian Quantum Mechanics, which deals with physical systems described by Hamiltonians which are not self-adjoint but still may have real point spectra. Also, their eigenvectors may form Riesz, not necessarily orthonormal, bases for the Hilbert space in which the model is defined. Those Riesz bases allow a decomposition of the Hamiltonian, as already discussed is some previous papers. However, in many physical models, one has to deal not with o.n. bases or with Riesz bases, but just with biorthogonal sets. Here, we consider the more general concept of $\mat…

Statistics and ProbabilityPure mathematicsReal pointbiorthogonal setquasi-basesMathematics::Classical Analysis and ODEsPhysical systemFOS: Physical sciencesGeneral Physics and Astronomy01 natural sciencessymbols.namesake0103 physical sciencesOrthonormal basis0101 mathematics010306 general physicsMathematical PhysicsEigenvalues and eigenvectorsMathematicsQuantum PhysicsMathematics::Functional Analysis010102 general mathematicsHilbert spaceStatistical and Nonlinear PhysicsMathematical Physics (math-ph)pseudo-Hermitian HamiltonianModeling and SimulationBiorthogonal systemsymbolsQuantum Physics (quant-ph)Hamiltonian (quantum mechanics)
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Electron Fabry-Perot interferometer with two entangled magnetic impurities

2007

We consider a one-dimensional (1D) wire along which single conduction electrons can propagate in the presence of two spin-1/2 magnetic impurities. The electron may be scattered by each impurity via a contact-exchange interaction and thus a spin-flip generally occurs at each scattering event. Adopting a quantum waveguide theory approach, we derive the stationary states of the system at all orders in the electron-impurity exchange coupling constant. This allows us to investigate electron transmission for arbitrary initial states of the two impurity spins. We show that for suitable electron wave vectors, the triplet and singlet maximally entangled spin states of the impurities can respectively…

Statistics and ProbabilityQUANTUM WIRESQuantum decoherenceSpin statesFOS: Physical sciencesGeneral Physics and AstronomyElectron01 natural sciences010305 fluids & plasmasMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesSCATTERINGSinglet state010306 general physicsMathematical PhysicsPhysicsCoupling constantINTERFERENCEQuantum PhysicsCondensed matter physicsCondensed Matter - Mesoscale and Nanoscale PhysicsScatteringStatistical and Nonlinear Physics3. Good healthModeling and SimulationCondensed Matter::Strongly Correlated ElectronsQuantum Physics (quant-ph)Electron scatteringStationary state
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Unitary Representations of Quantum Superpositions of two Coherent States and beyond

2013

The construction of a class of unitary operators generating linear superpositions of generalized coherent states from the ground state of a quantum harmonic oscillator is reported. Such a construction, based on the properties of a new ad hoc introduced set of hermitian operators, leads to the definition of new basis in the oscillator Hilbert space, extending in a natural way the displaced Fock states basis. The potential development of our method and our results are briefly outlined.

Statistics and ProbabilityQuantum PhysicsBasis (linear algebra)Hilbert spaceFOS: Physical sciencesStatistical and Nonlinear PhysicsUnitary stateFock spacesymbols.namesakeOptical phase spaceTheoretical physicsQuantum harmonic oscillatorQuantum mechanicssymbolsCoherent statesQuantum Physics (quant-ph)Mathematical PhysicsMathematicsSqueezed coherent state
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Grover Search with Lackadaisical Quantum Walks

2015

The lazy random walk, where the walker has some probability of staying put, is a useful tool in classical algorithms. We propose a quantum analogue, the lackadaisical quantum walk, where each vertex is given $l$ self-loops, and we investigate its effects on Grover's algorithm when formulated as search for a marked vertex on the complete graph of $N$ vertices. For the discrete-time quantum walk using the phase flip coin, adding a self-loop to each vertex boosts the success probability from 1/2 to 1. Additional self-loops, however, decrease the success probability. Using instead the Ambainis, Kempe, and Rivosh (2005) coin, adding self-loops simply slows down the search. These coins also diffe…

Statistics and ProbabilityQuantum PhysicsComplete graphFOS: Physical sciencesGeneral Physics and AstronomyStatistical and Nonlinear PhysicsRandom walk01 natural sciences010305 fluids & plasmasVertex (geometry)CombinatoricsModeling and Simulation0103 physical sciencesQuantum walkQuantum Physics (quant-ph)010306 general physicsQuantumMathematical PhysicsMathematics
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A simple comparative analysis of exact and approximate quantum error correction

2014

We present a comparative analysis of exact and approximate quantum error correction by means of simple unabridged analytical computations. For the sake of clarity, using primitive quantum codes, we study the exact and approximate error correction of the two simplest unital (Pauli errors) and nonunital (non-Pauli errors) noise models, respectively. The similarities and differences between the two scenarios are stressed. In addition, the performances of quantum codes quantified by means of the entanglement fidelity for different recovery schemes are taken into consideration in the approximate case. Finally, the role of self-complementarity in approximate quantum error correction is briefly ad…

Statistics and ProbabilityQuantum PhysicsComputationFOS: Physical sciencesStatistical and Nonlinear PhysicsQuantum capacityQuantum entanglementNoise (electronics)symbols.namesakePauli exclusion principleQuantum error correctionSimple (abstract algebra)symbolsApplied mathematicsError detection and correctionQuantum Physics (quant-ph)AlgorithmMathematical PhysicsMathematics
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