Search results for "Programming Language"

showing 10 items of 624 documents

Monte Carlo simulation of alpha spectra in low-geometry measurements

1994

Abstract Monte Carlo simulation of alpha spectra obtained with semiconductor detectors in low-geometry has been developed. The proposed method reproduces adequately experimental spectra of alpha emitters by taking into account the energy losses and trajectory changes of alpha particles as consequences of their interactions in the source, backing and detector.

PhysicsNuclear and High Energy PhysicsAlpha (programming language)Monte Carlo methodDetectorDynamic Monte Carlo methodAlpha particleStatistical physicsInstrumentationEnergy (signal processing)Spectral lineSemiconductor detectorComputational physicsNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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Measurement of time dependentCPasymmetry parameters inB0meson decays toωKS0,η′K0, andπ0KS0

2009

We present measurements of the time-dependent CP-violation parameters S and C in the decays B-0 -> omega K-S(0), B-0 -> eta'K-0, reconstructed as eta'K-S(0) and eta'K-L(0), and B-0 -> pi K-0(S)0. The data sample corresponds to the full BABAR dataset of 467 x 10(6) B (B) over bar pairs produced at the PEP-II asymmetric-energy e(+)e(-) collider at the Stanford Linear Accelerator Center. The results are S-omega KS0 = 0.55(-0.29)(+0.26) +/- 0.02, C-omega KS0 = 0.52(-0.20)(+0.22) +/- 0.03, S-eta'K0 = 0.57 +/- 0.08 +/- 0.02, C-eta'K0 = 0.08 +/- 0.06 +/- 0.02, S-pi 0KS0 = 0.55 +/- 0.20 +/- 0.03, and C-pi 0KS0 = 0.13 +/- 0.13 +/- 0.03, where the first errors are statistical and the second systemati…

PhysicsNuclear and High Energy PhysicsMeson010308 nuclear & particles physicsBETA (programming language)Electron–positron annihilationAnalytical chemistryCenter (category theory)01 natural sciencesOmegaParticle decayPair production0103 physical sciencesCP violationAtomic physics010306 general physicscomputercomputer.programming_languagePhysical Review D
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The electron-nucleus collider project

1997

Abstract In the context of the discussion about the future physics program of the GSI laboratory the physics potential of an electron-nucleus collider at about s = 1000GeV2 is being explored.

PhysicsNuclear and High Energy PhysicsParticle physicslawNuclear TheoryComputer Science::Programming LanguagesPhysics::Accelerator PhysicsContext (language use)ElectronNuclear ExperimentColliderlaw.inventionNuclear Physics A
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Recursive method for computing matrix elements for two-body interactions

2015

A recursive method for the efficient computation of two-body matrix elements is presented. The method consists of a set of recursion relations for the computationally demanding radial integral and adds one more tool to the set of computational methods introduced by Horie and Sasaki [H. Horie and K. Sasaki, Prog. Theor. Phys. 25, 475 (1961)]. The neutrinoless double-$\ensuremath{\beta}$ decay will serve as the primary application and example, but the method is general and can be applied equally well to other kinds of nuclear structure calculations involving matrix elements of two-body interactions.

PhysicsNuclear and High Energy PhysicsPure mathematicstwo-body interactionsRecursionta114BETA (programming language)matrix elementsRadial integralComputationNuclear structureSet (abstract data type)Matrix (mathematics)computational physicscomputercomputer.programming_language
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FORTRAN-Auswertungsprogramm für Massenspektren

1979

PhysicsProgramming languageFortranDrug DiscoveryPharmaceutical Sciencecomputer.software_genrecomputercomputer.programming_languageArchiv der Pharmazie
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Entanglement correlations, Bell inequalities, and the concurrence

2005

Probabilities of measurement outcomes of two-particle entangled states give a physically transparent interpretation of the concurrence and of the I-concurrence as entanglement measures. The (I)-concurrence can thus be measured experimentally. The tight connection between these measures and Bell inequalities is highlighted.

PhysicsQuantum PhysicsBell stateInequalitymedia_common.quotation_subjectGeneral Physics and AstronomyFOS: Physical sciencesConcurrenceQuantum entanglementQuantum PhysicsSquashed entanglementMultipartite entanglementLocal hidden variable theoryQuantum mechanicsComputer Science::Programming LanguagesBell test experimentsQuantum Physics (quant-ph)media_common
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Partitioning of on-demand electron pairs

2014

The on-demand generation and separation of entangled photon pairs are key components of quantum information processing in quantum optics. In an electronic analogue, the decomposition of electron pairs represents an essential building block for using the quantum state of ballistic electrons in electron quantum optics. The scattering of electrons has been used to probe the particle statistics of stochastic sources in Hanbury Brown and Twiss experiments and the recent advent of on-demand sources further offers the possibility to achieve indistinguishability between multiple sources in Hong-Ou-Mandel experiments. Cooper pairs impinging stochastically at a mesoscopic beamsplitter have been succe…

PhysicsQuantum networkElectron pairCondensed Matter - Mesoscale and Nanoscale PhysicsBiomedical EngineeringFOS: Physical sciencesQuantum simulatorBioengineeringQuantum PhysicsElectronCondensed Matter PhysicsAtomic and Molecular Physics and OpticsOpen quantum systemQuantum dotQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)Computer Science::Programming LanguagesGeneral Materials ScienceQuantum algorithmElectrical and Electronic EngineeringQuantum informationComputer Science::DatabasesNature Nanotechnology
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Masclet: a new multidimensional AMR cosmological code

2004

A new cosmological multidimensional hydrodynamic and N-body code based on an Adaptive Mesh Refinement scheme is described and tested. The hydro part is based on modern high-resolution shock-capturing techniques, whereas N-body approach is based on a Particle Mesh method. The code has been specifically designed for cosmological applications.To search for other articles by the author(s) go to: http://adsabs.harvard.edu/abstract_service.html

PhysicsScheme (programming language)ComputerSystemsOrganization_COMPUTERSYSTEMIMPLEMENTATIONGotoSpace and Planetary ScienceAdaptive mesh refinementParticle MeshCode (cryptography)Astronomy and AstrophysicsParallel computingcomputercomputer.programming_languageProceedings of the International Astronomical Union
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On the numerical scheme employed in gyrotron interaction simulations

2012

We report on the influence of the numerical scheme employed in gyrotron interaction simulations. Results obtained with the Crank-Nicolson scheme are compared with those obtained with the Backward Time – Centred Space (BTCS) fully implicit scheme. We present realistic cases where, for discretisation parameters in the range usually used in gyrotron simulations, the results can be very different. Hence, the numerical scheme used can be responsible for obscuring the underlying physics if its convergence is not tested carefully.

PhysicsScheme (programming language)DiscretizationPhysicsQC1-999Space (mathematics)law.inventionlawGyrotronConvergence (routing)Range (statistics)Statistical physicsddc:620computerEngineering & allied operationscomputer.programming_language
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The methods of XLOOPS An introduction to parallel space techniques

1997

Abstract The package XLOOPS presented in this workshop relies on the application of parallel space techniques. We introduce these techniques covering the following topics: • - The generation of integral representations for massive two-loop diagrams. • - The treatment of tensor structures. • - The handling of the γ-algebra in this scheme. • - The separation of UV and IR divergences in analytic expressions. We present two-loop examples taken from Standard Model calculations.

PhysicsScheme (programming language)Nuclear and High Energy PhysicsTensor (intrinsic definition)Space techniquesInstrumentationcomputerAlgorithmStandard model (cryptography)computer.programming_languageNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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