Search results for "RDW"

showing 10 items of 1401 documents

Monte Carlo simulation of crystalline polyethylene

1996

Abstract We consider here the problem of constructing an efficient algorithm for a classical Monte Carlo simulation of crystalline polyethylene with unconstrained bond lengths and angles. This macromolecular crystal presents a particular example of a system with many different energy scales, ranging from soft ones represented by nonbonded van der Waals interactions, to stiff ones, represented in particular by bond stretching. A proper sampling of all the energy scales poses a problem and it is shown that a standard Metropolis algorithm employing just local moves is not very efficient at low temperatures. As a solution it is proposed to employ also global moves consisting of displacements of…

PhysicsQuantum Monte CarloMonte Carlo methodDegrees of freedom (physics and chemistry)General Physics and AstronomyHybrid Monte Carlosymbols.namesakeMetropolis–Hastings algorithmHardware and ArchitectureDynamic Monte Carlo methodsymbolsStatistical physicsvan der Waals forceMonte Carlo molecular modelingComputer Physics Communications

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Microwave potentials and optimal control for robust quantum gates on an atom chip

2006

We propose a two-qubit collisional phase gate that can be implemented with available atom chip technology, and present a detailed theoretical analysis of its performance. The gate is based on earlier phase gate schemes, but uses a qubit state pair with an experimentally demonstrated, very long coherence lifetime. Microwave near-fields play a key role in our implementation as a means to realize the state-dependent potentials required for conditional dynamics. Quantum control algorithms are used to optimize gate performance. We employ circuit configurations that can be built with current fabrication processes, and extensively discuss the impact of technical noise and imperfections that charac…

PhysicsQuantum PhysicsFABRICATIONFOS: Physical sciencesOptimal controlAtomic and Molecular Physics and OpticsQuantum circuitComputer Science::Hardware ArchitectureQuantum gateComputer Science::Emerging TechnologiesControlled NOT gateQuantum mechanicsQubitElectronic engineeringSCATTERINGQuantum Physics (quant-ph)NEUTRAL ATOMSMicrowaveMICROCHIP TRAPSQuantum computerCoherence (physics)

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Fast SWAP gate by adiabatic passage

2005

We present a process for the construction of a SWAP gate which does not require a composition of elementary gates from a universal set. We propose to employ direct techniques adapted to the preparation of this specific gate. The mechanism, based on adiabatic passage, constitutes a decoherence-free method in the sense that spontaneous emission and cavity damping are avoided.

PhysicsQuantum PhysicsQuantum decoherenceFOS: Physical sciencesUniversal setHardware_PERFORMANCEANDRELIABILITYTopologyAtomic and Molecular Physics and OpticsQuantum circuitComputer Science::Hardware ArchitectureQuantum gateComputer Science::Emerging Technologies[ PHYS.PHYS.PHYS-AO-PH ] Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]Controlled NOT gateQuantum mechanicsHardware_INTEGRATEDCIRCUITSSpontaneous emissionQuantum Physics (quant-ph)Adiabatic processQuantum computerHardware_LOGICDESIGN

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Quantum Nondemolition Gate Operations and Measurements in Real Time on Fluctuating Signals

2017

We demonstrate an optical quantum nondemolition (QND) interaction gate with a bandwidth of about 100 MHz. Employing this gate, we are able to perform QND measurements in real time on randomly fluctuating signals. Our QND gate relies on linear optics and offline-prepared squeezed states. In contrast to previous demonstrations on narrow sideband modes, our gate is compatible with quantum states temporally localized in a wave-packet mode including non-Gaussian quantum states. This is the cornerstone of realizing quantum error correction and universal gate operations.

PhysicsQuantum PhysicsSidebandBandwidth (signal processing)FOS: Physical sciencesQuantum Physics01 natural sciences010309 opticsLinear opticsComputer Science::Hardware ArchitectureComputer Science::Emerging TechnologiesQuantum error correctionQuantum stateQuantum mechanics0103 physical sciencesHardware_INTEGRATEDCIRCUITS010306 general physicsQuantum Physics (quant-ph)Quantum

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anQCD: Fortran programs for couplings at complex momenta in various analytic QCD models

2015

We provide three Fortran programs which evaluate the QCD analytic (holomorphic) couplings $\mathcal{A}_{\nu}(Q^2)$ for complex or real squared momenta $Q^2$. These couplings are holomorphic analogs of the powers $a(Q^2)^{\nu}$ of the underlying perturbative QCD (pQCD) coupling $a(Q^2) \equiv \alpha_s(Q^2)/\pi$, in three analytic QCD models (anQCD): Fractional Analytic Perturbation Theory (FAPT), Two-delta analytic QCD (2$\delta$anQCD), and Massive Perturbation Theory (MPT). The index $\nu$ can be noninteger. The provided programs do basically the same job as the Mathematica package anQCD.m in Mathematica published by us previously, Ref.[1], but are now written in Fortran.

PhysicsQuantum chromodynamicsParticle physicsChiral perturbation theory010308 nuclear & particles physicsHolomorphic functionGeneral Physics and AstronomyPerturbative QCDFOS: Physical sciences01 natural sciencesRenormalizationHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Hardware and Architecture0103 physical sciencesHigh Energy Physics::ExperimentPerturbation theory (quantum mechanics)Invariant (mathematics)010306 general physicsComplex planeMathematical physics

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Wilsonʼs momentum shell renormalization group from Fourier Monte Carlo simulations

2011

Abstract Previous attempts to accurately compute critical exponents from Wilsonʼs momentum shell renormalization prescription suffered from the difficulties posed by the presence of an infinite number of irrelevant couplings. Taking the example of the 1d long-ranged Ising model , we calculate the momentum shell renormalization flow in the plane spanned by the coupling constants ( u 0 , r 0 ) for different values of the momentum shell thickness parameter b by simulation using our recently developed Fourier Monte Carlo algorithm. We report strong anomalies in the b-dependence of the fixed point couplings and the resulting exponents y τ and ω in the vicinity of a shell parameter b ⁎ 1 characte…

PhysicsRenormalizationMomentumHybrid Monte CarloHardware and ArchitectureQuantum electrodynamicsQuantum Monte CarloMonte Carlo methodGeneral Physics and AstronomyRenormalization groupCritical exponentMonte Carlo molecular modelingComputer Physics Communications

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Strongly super-Poisson statistics replaced by a wide-pulse Poisson process: The billiard random generator

2021

Abstract In this paper we present a study on random processes consisting of delta pulses characterized by strongly super-Poisson statistics and calculate its spectral density. We suggest a method for replacing a strongly super-Poisson process with a wide-pulse Poisson process, while demonstrating that these two processes can be set in such a way to have similar spectral densities, the same mean values, and the same correlation times. We also present a billiard system that can be used to generate random pulse noise of arbitrary statistical properties. The particle dynamics is considered in terms of delta and wide pulses simultaneously. The results of numerical experiments with the billiard s…

PhysicsSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciStochastic processGeneral MathematicsApplied MathematicsGeneral Physics and AstronomySpectral densityStatistical and Nonlinear PhysicsPoisson distributionRenewal processPulse (physics)symbols.namesakeBilliard-like systemsStochastic processessymbolsHardware random number generatorFluctuation phenomenaStatistical physicsRenewal theoryHardware random number generatorDynamical billiardsSuper-Poisson statisticsGenerator (mathematics)Chaos, Solitons & Fractals

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Photonically assisted RF generator with incoherent sources

2008

An RF waveform generator operating with incoherent broadband light is successfully implemented. Complex RF ~10 GHz bandwidth waveforms are generated by means of incoherent wavelength-to-time mapping. Our technique can be scaled to the mm-wave range.

PhysicsSignal generatorbusiness.industryBandwidth (signal processing)ComputingMilieux_PERSONALCOMPUTINGElectrical engineeringBroadband communicationOpticsBroadbandHardware_INTEGRATEDCIRCUITSWaveformBroadband amplifiersRadio frequencyPhotonicsbusinessOECC/ACOFT 2008 - Joint Conference of the Opto-Electronics and Communications Conference and the Australian Conference on Optical Fibre Technology

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Reconfigurable RF waveform generation using optical incoherent sources

2008

PhysicsSignal generatorbusiness.industryBandwidth (signal processing)ComputingMilieux_PERSONALCOMPUTINGPulse amplifiersOpticsBroadbandHardware_INTEGRATEDCIRCUITSWaveformRadio frequencybusinessMicrowave photonicsPulse-width modulation2008 Conference on Lasers and Electro-Optics

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Millimeter-wave and microwave signal generation by low-bandwidth electro-optic phase modulation

2009

We propose, analyze and numerically illustrate a photonic-based technique for waveform generation of electrical signals approaching the 50 GHz bandwidth with time apertures as large as a few nanoseconds, by low-frequency, up to 2 GHz, electro-optic phase modulation of time-stretched optical pulses. Synthesis of the electrical waveform relies on phase-to-amplitude conversion of the modulated signal by a group delay dispersion circuit designed to behave as a transversal filter with N taps. Although arbitrary waveform generation capabilities are limited, a wide variety of user-defined signals are numerically demonstrated by appropriately designing the low-frequency signal driving the electro-o…

PhysicsSignal processingbusiness.industryBandwidth (signal processing)Numerically controlled oscillatorSignalAtomic and Molecular Physics and OpticsOpticsHardware_GENERALChirpWaveformPhotonicsbusinessPhase modulation

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