Search results for "quant-ph"

showing 10 items of 1378 documents

Generalized Bloch spheres form-qubit states

2006

m-Qubit states are imbedded in $\mathfrak{Cl}_{2^m}$ Clifford algebras. Their probability spectra then depend on $O(2m)$ or $O(2m+1)$ invariants. Parameter domains for $O(2m(+1))-$ vector and tensor configurations, generalizing the notion of a Bloch sphere, are derived.

PhysicsQuantum PhysicsBloch sphereClifford algebraFOS: Physical sciencesGeneral Physics and AstronomyStatistical and Nonlinear PhysicsSpectral lineComputer Science::Emerging TechnologiesQubitSPHERESTensorQuantum Physics (quant-ph)Mathematical PhysicsMathematical physicsJournal of Physics A: Mathematical and General
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N-qubit states as points on the Bloch sphere

2009

We show how the Majorana representation can be used to express the pure states of an N-qubit system as points on the Bloch sphere. We compare this geometrical representation of N-qubit states with an alternative one, proposed recently by the present authors.

PhysicsQuantum PhysicsBloch sphereentanglement density matrixRepresentation (systemics)FOS: Physical sciencesQuantum PhysicsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsTheoretical physicsMAJORANAComputer Science::Emerging TechnologiesQubitQuantum Physics (quant-ph)Mathematical Physics
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Ramsey interferometry of non-Hermitian quantum impurities

2020

We introduce a Ramsey pulse scheme which extracts the non-Hermitian Hamiltonian associated to an arbitrary Lindblad dynamics. We propose a realted protocol to measure via interferometry a generalised Loschmidt echo of a generic state evolving in time with the non-Hermitian Hamiltonian itself, and we apply the scheme to a one-dimensional weakly interacting Bose gas coupled to a stochastic atomic impurity. The Loschmidt echo is mapped into a functional integral from which we calculate the long-time decohering dynamics at arbitrary impurity strengths. For strong dissipation we uncover the phenomenology of a quantum many-body Zeno effect: corrections to the decoherence exponent resulting from t…

PhysicsQuantum PhysicsBose gasEcho (computing)FOS: Physical sciences01 natural sciencesHermitian matrix010305 fluids & plasmasPulse (physics)Nonlinear Sciences::Chaotic DynamicsRamsey interferometryQuantum Gases (cond-mat.quant-gas)Quantum mechanics0103 physical sciencesAtom010306 general physicsQuantum Physics (quant-ph)Condensed Matter - Quantum GasesQuantumQuantum Zeno effect
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Time-optimal control of SU(2) quantum operations

2013

We propose an analysis of the time-optimal control of SU(2) quantum operations. By using the Pontryagin Maximum Principle, we show how to determine the optimal trajectory reaching a given target state. Explicit analytical solutions are given for two specific examples. We discuss the role of the detuning in the construction of the optimal synthesis.

PhysicsQuantum PhysicsClassical mechanicsOptimal trajectoryFOS: Physical sciencesState (functional analysis)Control (linguistics)Time optimalQuantum Physics (quant-ph)QuantumAtomic and Molecular Physics and OpticsSpecial unitary groupPontryagin's minimum principle
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Arbitrary state controlled-unitary gate by adiabatic passage

2006

We propose a robust scheme involving atoms fixed in an optical cavity to directly implement the universal controlled-unitary gate. The present technique based on adiabatic passage uses novel dark states well suited for the controlled-rotation operation. We show that these dark states allow the robust implementation of a gate that is a generalisation of the controlled-unitary gate to the case where the control qubit can be selected to be an arbitrary state. This gate has potential applications to the rapid implementation of quantum algorithms such as of the projective measurement algorithm. This process is decoherence-free since excited atomic states and cavity modes are not populated during…

PhysicsQuantum PhysicsCluster stateFOS: Physical sciencesAtomic and Molecular Physics and OpticsQuantum circuitDark stateQuantum gateComputer Science::Emerging Technologies[ PHYS.PHYS.PHYS-AO-PH ] Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]Controlled NOT gateQubitQuantum mechanicsQuantum Physics (quant-ph)Trapped ion quantum computerQuantum computer
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Memory-assisted long-distance phase-matching quantum key distribution

2019

We propose a scheme that generalizes the loss scaling properties of twin-field or phase-matching quantum key distribution (QKD) related to a channel of transmission $\eta_{total}$ from $\sqrt{\eta_{total}}$ to $\sqrt[2n]{\eta_{total}}$ by employing n-1 memory stations with spin qubits and n beam-splitter stations including optical detectors. Our scheme's resource states are similar to the coherent-state-based light-matter entangled states of a previous hybrid quantum repeater, but unlike the latter our scheme avoids the necessity of employing 2n-1 memory stations and writing the transmitted optical states into the matter memory qubits. The full scaling advantage of this memory-assisted phas…

PhysicsQuantum PhysicsCoherence timeDephasingFOS: Physical sciencesQuantum entanglementQuantum key distribution01 natural sciences010305 fluids & plasmasQuantum stateQubitQuantum mechanics0103 physical sciencesQuantum Physics (quant-ph)010306 general physicsQuantumScalingPhysical Review A
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Tripartite separability conditions exponentially violated by Gaussian states

2014

Starting with a set of conditions for bipartite separability of arbitrary quantum states in any dimension and expressed in terms of arbitrary operators whose commutator is a $c$-number, we derive a hierarchy of conditions for tripartite separability of continuous-variable three-mode quantum states. These conditions have the form of inequalities for higher-order moments of linear combinations of the mode operators. They enable one to distinguish between all possible kinds of tripartite separability, while the strongest violation of these inequalities is a sufficient condition for genuine tripartite entanglement. We construct Gaussian states for which the violation of our conditions grows exp…

PhysicsQuantum PhysicsCommutatorPure mathematicsHierarchy (mathematics)GaussianFOS: Physical sciencesQuantum entanglementQuantum PhysicsAtomic and Molecular Physics and Opticssymbols.namesakeDimension (vector space)Quantum stateQuantum mechanicsBipartite graphsymbolsLinear combinationQuantum Physics (quant-ph)
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Exactly solvable time-dependent pseudo-Hermitian su(1,1) Hamiltonian models

2018

An exact analytical treatment of the dynamical problem for time-dependent 2x2 pseudo-hermitian su(1,1) Hamiltonians is reported. A class of exactly solvable and physically transparent new scenarios are identified within both classical and quantum contexts. Such a class is spanned by a positive parameter $\nu$ that allows to distinguish two different dynamical regimes. Our results are usefully employed for exactly solving a classical propagation problem in a guided wave optics scenario. The usefulness of our procedure in a quantum context is illustrated by defining and investigating the su(1,1) "Rabi" scenario bringing to light analogies and differences with the standard su(2) Rabi model. Ou…

PhysicsQuantum PhysicsComplex energyFOS: Physical sciences01 natural sciencesHermitian matrixAtomic and Molecular Physics and Optics010305 fluids & plasmassymbols.namesake0103 physical sciencessymbolsQuantum Physics (quant-ph)010306 general physicsHamiltonian (quantum mechanics)QuantumGuided wave opticsVon Neumann architectureMathematical physics
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Density-potential mappings in quantum dynamics

2012

In a recent letter [Europhys. Lett. 95, 13001 (2011)] the question of whether the density of a time-dependent quantum system determines its external potential was reformulated as a fixed point problem. This idea was used to generalize the existence and uniqueness theorems underlying time-dependent density functional theory. In this work we extend this proof to allow for more general norms and provide a numerical implementation of the fixed-point iteration scheme. We focus on the one-dimensional case as it allows for a more in-depth analysis using singular Sturm-Liouville theory and at the same time provides an easy visualization of the numerical applications in space and time. We give an ex…

PhysicsQuantum PhysicsCondensed Matter - Materials ScienceSpacetimeta114Quantum dynamicsOperator (physics)Continuous spectrumMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesMathematical Physics (math-ph)01 natural sciencesAtomic and Molecular Physics and Optics010305 fluids & plasmas0103 physical sciencesConvergence (routing)Quantum systemApplied mathematicsUniquenessBoundary value problem010306 general physicsQuantum Physics (quant-ph)Mathematical Physics
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Cross-relaxation studies with optically detected magnetic resonances in nitrogen-vacancy centers in diamond in an external magnetic field

2020

In this paper cross-relaxation between nitrogen-vacancy (NV) centers and substitutional nitrogen in a diamond crystal was studied. It was demonstrated that optically detected magnetic resonance signals (ODMR) can be used to measure these signals successfully. The ODMR were detected at axial magnetic field values around 51.2~mT in a diamond sample with a relatively high (200~ppm) nitrogen concentration. We observed transitions that involve magnetic sublevels that are split by the hyperfine interaction. Microwaves in the frequency ranges from 1.3 GHz to 1.6 GHz ($m_S=0\longrightarrow m_S=-1$ NV transitions) and from 4.1 to 4.6 GHz ($m_S=0\longrightarrow m_S=+1$ NV transitions) were used. To u…

PhysicsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsDiamondFOS: Physical sciences02 engineering and technologyengineering.material021001 nanoscience & nanotechnology01 natural sciencesMagnetic fieldVacancy defect0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)engineeringMoleculeHyperpolarization (physics)Atomic physics010306 general physics0210 nano-technologyQuantum Physics (quant-ph)QuantumHyperfine structureMicrowave
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