Search results for "gase"

showing 10 items of 1216 documents

COMPLEXITY, NOISE AND QUANTUM INFORMATION ON ATOM CHIPS

2008

The realization of quantum logic gates with neutral atoms on atom chips is investigated, including realistic features, such as noise and actual experimental setups.

Condensed Matter::Quantum GasesPhysicsQuantum networkPhysics and Astronomy (miscellaneous)Quantum sensorQuantum simulatorGATESQuantum logicComputer Science::Hardware ArchitectureQuantum circuitQuantum gateQuantum error correctionQuantum mechanicsPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsQuantum informationHardware_LOGICDESIGNInternational Journal of Quantum Information
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Quantum transport of single neutral atoms

2007

The state-selective (quantum) transport of single neutral atoms stored in a one dimensional optical lattice is a promising technique to implement controlled atomic interaction using coherent cold collisions. This is required in several schemes of quantum information processing. Here, we present a technical implementation of the quantum transport scheme for one, two and more caesium atoms, as well as the manipulation and detection of their internal states.

Condensed Matter::Quantum GasesPhysicsQuantum opticsOptical latticeEnergetic neutral atom1s Slater-type functionchemistry.chemical_elementQuantum transportchemistryCaesiumAtom opticsPhysics::Atomic PhysicsAtomic physicsQuantum2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
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Asymptotic entanglement of two atoms in a squeezed light field

2011

The dynamics of entanglement between two - level atoms interacting with a common squeezed reservoir is investigated. It is shown that for spatially separated atoms there is a unique asymptotic state depending on the distance between the atoms and the atom - photons detuning. In the regime of strong correlations there is a one - parameter family of asymptotic steady - states depending on initial conditions. In contrast to the thermal reservoir both types of asymptotic states can be entangled. We calculate the amount of entanglement in the system in terms of concurrence.

Condensed Matter::Quantum GasesPhysicsQuantum opticsQuantum PhysicsQuantum decoherenceField (physics)Thermal reservoirFOS: Physical sciencesConcurrenceQuantum PhysicsQuantum entanglementSquashed entanglementAtomic and Molecular Physics and OpticsQuantum mechanicsPhysics::Atomic PhysicsAtomic physicsQuantum Physics (quant-ph)Squeezed coherent statePhysical Review A
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Magnetic quantum criticality in quasi-one-dimensional Heisenberg antiferromagnet Cu (C4H4N2)( NO 3)2

2016

We analyze exciting recent measurements [Phys. Rev. Lett. 114 (2015) 037202] of the magnetization, differential susceptibility and specific heat on one dimensional Heisenberg antiferromagnet Cu(C4H4N2)(NO3)2 (CuPzN) subjected to strong magnetic fields. Using the mapping between magnons (bosons) in CuPzN and fermions, we demonstrate that magnetic field tunes the insulator towards quantum critical point related to so-called fermion condensation quantum phase transition (FCQPT) at which the resulting fermion effective mass diverges kinematically. We show that the FCQPT concept permits to reveal the scaling behavior of thermodynamic characteristics, describe the experimental results quantitativ…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionCondensed matter physicsMagnonGeneral Physics and Astronomy02 engineering and technologyFermion021001 nanoscience & nanotechnology01 natural sciencesMagnetizationEffective mass (solid-state physics)Quantum mechanicsQuantum critical point0103 physical sciencesCondensed Matter::Strongly Correlated ElectronsStrongly correlated material010306 general physics0210 nano-technologyBosonAnnalen der Physik
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Identification of strongly correlated spin liquid in herbertsmithite

2011

Exotic quantum spin liquid (QSL) is formed with such hypothetic particles as fermionic spinons carrying spin 1/2 and no charge. Here we calculate its thermodynamic and relaxation properties. Our calculations unveil the fundamental properties of QSL, forming strongly correlated Fermi system located at a fermion condensation quantum phase transition. These are in a good agreement with experimental data and allow us to detect the behavior of QSL as that observed in heavy fermion metals. We predict that the thermal resistivity of QSL under the application of magnetic fields at fixed temperature demonstrates a very specific behavior. The key features of our findings are the presence of spin-char…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)Condensed matter physicsRelaxation (NMR)FOS: Physical sciencesGeneral Physics and AstronomyFermionengineering.materialSpinonMagnetic fieldCondensed Matter - Strongly Correlated ElectronsengineeringCondensed Matter::Strongly Correlated ElectronsHerbertsmithiteQuantum spin liquidQuantum Physics (quant-ph)Spin-½EPL (Europhysics Letters)
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Quasiparticles and quantum phase transition in universal low-temperature properties of heavy-fermion metals

2006

We demonstrate, that the main universal features of the low temperature experimental $H-T$ phase diagram of CeCoIn5 and other heavy-fermion metals can be well explained using Landau paradigm of quasiparticles. The main point of our theory is that above quasiparticles form so-called fermion-condensate state, achieved by a fermion condensation quantum phase transition (FCQPT). When a heavy fermion liquid undergoes FCQPT, the fluctuations accompanying above quantum critical point are strongly suppressed and cannot destroy the quasiparticles. The comparison of our theoretical results with experimental data on CeCoIn5 have shown that the electronic system of above substance provides a unique opp…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionStrongly Correlated Electrons (cond-mat.str-el)Condensed matter physicsCondensed Matter - SuperconductivityCondensationFOS: Physical sciencesGeneral Physics and AstronomyFermionSuperconductivity (cond-mat.supr-con)Condensed Matter - Strongly Correlated ElectronsQuantum critical pointHeavy fermionQuasiparticleCondensed Matter::Strongly Correlated ElectronsElectronic systemsPhase diagramEurophysics Letters (EPL)
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Orbital-selective Mott transitions in two-band Hubbard models

2006

The anisotropic two-orbital Hubbard model is investigated at low temperatures using high-precision quantum Monte Carlo (QMC) simulations within dynamical mean-field theory (DMFT). We demonstrate that two distinct orbital-selective Mott transitions (OSMTs) occur for a bandwidth ratio of 2 even without spin-flip contributions to the Hund exchange, and we quantify numerical errors in earlier QMC data which had obscured the second transition. The limit of small inter-orbital coupling is introduced via a new generalized Hamiltonian and studied using QMC and Potthoff's self-energy functional method, yielding insight into the nature of the OSMTs and the non-Fermi-liquid OSM phase and opening the p…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionStrongly Correlated Electrons (cond-mat.str-el)Condensed matter physicsHubbard modelQuantum Monte CarloMonte Carlo methodFOS: Physical sciencesCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsMott transitionCondensed Matter - Strongly Correlated Electronssymbols.namesakeSelf-energysymbolsCondensed Matter::Strongly Correlated ElectronsSpin-flipHamiltonian (quantum mechanics)Journal of Magnetism and Magnetic Materials
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Asymmetric Tunneling Conductance and the non-Fermi Liquid Behavior of Strongly Correlated Fermi Systems

2018

Tunneling differential conductivity (or resistivity) is a sensitive tool to experimentally test the nonFermi liquid behavior of strongly correlated Fermi systems. In the case of common metals the Landau– Fermi liquid theory demonstrates that the differential conductivity is a symmetric function of bias voltage V . This is because the particle-hole symmetry is conserved in the Landau–Fermi liquid state. When a strongly correlated Fermi system turns out to be near the topological fermion condensation quantum phase transition, its Landau–Fermi liquid properties disappear so that the particle-hole symmetry breaks making the differential tunneling conductivity to be asymmetric function of V . Th…

Condensed Matter::Quantum GasesPhysicsQuantum phase transitionSuperconductivityPhysics and Astronomy (miscellaneous)Condensed matter physicsmedia_common.quotation_subject02 engineering and technologyConductivity021001 nanoscience & nanotechnology01 natural sciencesAsymmetryElectrical resistivity and conductivity0103 physical sciencesCondensed Matter::Strongly Correlated ElectronsFermi liquid theory010306 general physics0210 nano-technologyPseudogapQuantum tunnellingmedia_commonJETP Letters
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2-qubit quantum state transfer in spin chains and cold atoms with weak links

2017

In this paper we discuss the implementation of 2-qubit quantum state transfer (QST) in inhomogeneous spin chains where the sender and the receiver blocks are coupled through the bulk channel via weak links. The fidelity and the typical timescale of the QST are discussed as a function of the parameters of the weak links. Given the possibility of implementing with cold atoms in optical lattices a variety of condensed matter systems, including spin systems, we also discuss the possible implementation of the discussed 2-qubit QST with cold gases with weak links, together with a discussion of the applications and limitations of the presented results.

Condensed Matter::Quantum GasesPhysicsQuantum physiccondensed matterPhysics and Astronomy (miscellaneous)Quantum gasQuantum physicscold atomquantum gaseFunction (mathematics)cold atomsquantum state transfer01 natural sciences010305 fluids & plasmas3. Good healthQubitQuantum mechanics0103 physical sciencesQuantum state transfercold atoms; condensed matter; quantum gases; Quantum physics; quantum state transfer; Physics and Astronomy (miscellaneous)quantum gases010306 general physicsSpin-½
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Trapped Rydberg ions: A new platform for quantum information processing

2020

Abstract In this chapter, we present an overview of experiments with trapped Rydberg ions and outline the advantages and challenges of developing applications of this new platform for quantum computing, sensing, and simulation. Trapped Rydberg ions feature several important properties, unique in their combination: they are tightly bound in a harmonic potential of a Paul trap, in which their internal and external degrees of freedom can be controlled in a precise fashion. High fidelity state preparation of both internal and motional states of the ions has been demonstrated, and the internal states have been employed to store and manipulate qubit information. Furthermore, strong dipolar intera…

Condensed Matter::Quantum GasesPhysicsQuantum simulator02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesIonsymbols.namesakeNormal modePolarizabilityQubit0103 physical sciencesRydberg formulasymbolsPhysics::Atomic PhysicsIon trapAtomic physics010306 general physics0210 nano-technologyQuantum computer
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