Search results for "Models"

showing 10 items of 8211 documents

Modulation transfer function of a toric intraocular lens: evaluation of the changes produced by rotation and tilt.

2011

PURPOSE: To evaluate the changes in optical quality when toric intraocular lenses (IOL) are rotated or tilted and to demonstrate that IOL rotation produces an increasing effect of aberrations. METHODS: Modulation transfer function (MTF) and average modulation were used to analyze the image quality of a toric IOL. The axis of the toric IOL was rotated 5°, 10°, 15°, 20°, 25°, and 30° in successive MTF measurements. The tilt values were 0° to 5°, in increments of 1°, plus a tilt of 15°. Pupil diameters of 3 and 5 mm were used. RESULTS: The MTF decay due to aberrations was more sensitive to rotation than tilt. The main decrement in the average modulation, of approximately 50% in both pupils, o…

PhysicsLenses IntraocularOptics and PhotonicsCorneal Wavefront AberrationRotationbusiness.industrymedicine.medical_treatmentIntraocular lensModels TheoreticalRotationArtificial Lens Implant MigrationOptical qualityExponential functionOphthalmologyTilt (optics)OpticsIntraocular lensesModulationOptical transfer functionmedicineHumansSurgerybusinessJournal of refractive surgery (Thorofare, N.J. : 1995)
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Applications of wavelets to quantum mechanics: A pedagogical example

1995

We discuss in many details two quantum mechanical models of planar electrons which are very much related to the Fractional Quantum Hall Effect. In particular, we discuss the localization properties of the trial ground states of the models starting from considerations on the numerical results on the energy. We conclude that wavelet theory can be conveniently used in the description of the system. Finally we suggest applications of our results to the Fractional Quantum Hall Effect.

PhysicsMechanical modelsCondensed Matter (cond-mat)General Physics and AstronomyFOS: Physical sciencesStatistical and Nonlinear PhysicsCondensed MatterElectronWaveletPlanarQuantum mechanicsFractional quantum Hall effectQuantumSettore MAT/07 - Fisica MatematicaEnergy (signal processing)Mathematical Physics
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Synchronization of Bioelectric Oscillations in Networks of Nonexcitable Cells: From Single-Cell to Multicellular States.

2019

Biological networks use collective oscillations for information processing tasks. In particular, oscillatory membrane potentials have been observed in nonexcitable cells and bacterial communities where specific ion channel proteins contribute to the bioelectric coordination of large populations. We aim at describing theoretically the oscillatory spatiotemporal patterns that emerge at the multicellular level from the single-cell bioelectric dynamics. To this end, we focus on two key questions: (i) What single-cell properties are relevant to multicellular behavior? (ii) What properties defined at the multicellular level can allow an external control of the bioelectric dynamics? In particular,…

PhysicsMembrane potential010304 chemical physicsCellsCell010402 general chemistry01 natural sciencesModels Biological0104 chemical sciencesSurfaces Coatings and FilmsCollective communicationMulticellular organismmedicine.anatomical_structure0103 physical sciencesSynchronization (computer science)Materials ChemistrymedicinePhysical and Theoretical ChemistryNeurosciencePhysiological PhenomenonIon channelBiological networkPhysiological PhenomenaThe journal of physical chemistry. B
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Modeling techniques for analysing conformational transitions in hemocyanins by small-angle scattering of X-rays and neutrons.

2004

PhysicsModels MolecularNeutronsbusiness.industryProtein ConformationX-RaysGeneral Physics and AstronomyCell BiologyComputational physicsOpticsStructural BiologyHemocyaninsAnimalsScattering RadiationGeneral Materials ScienceNeutronSmall-angle scatteringBiological small-angle scatteringbusinessMonte Carlo MethodMicron (Oxford, England : 1993)
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Localization-delocalization transition for disordered cubic harmonic lattices.

2012

We study numerically the disorder-induced localization-delocalization phase transitions that occur for mass and spring constant disorder in a three-dimensional cubic lattice with harmonic couplings. We show that, while the phase diagrams exhibit regions of stable and unstable waves, the universality of the transitions is the same for mass and spring constant disorder throughout all the phase boundaries. The combined value for the critical exponent of the localization lengths of $\nu = 1.550^{+0.020}_{-0.017}$ confirms the agreement with the universality class of the standard electronic Anderson model of localization. We further support our investigation with studies of the density of states…

PhysicsModels MolecularPhase transitionCondensed matter physicsMolecular ConformationFOS: Physical sciencesDisordered Systems and Neural Networks (cond-mat.dis-nn)Condensed Matter - Disordered Systems and Neural NetworksRenormalization groupCondensed Matter PhysicsCondensed Matter::Disordered Systems and Neural NetworksPhase TransitionUniversality (dynamical systems)Models ChemicalDensity of statesGeneral Materials ScienceComputer SimulationWave functionCritical exponentAnderson impurity modelPhase diagramJournal of physics. Condensed matter : an Institute of Physics journal
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Force-clamp spectroscopy of reversible bond breakage.

2008

We consider reversible breaking of adhesion bonds or folding of proteins under the influence of a constant external force. We discuss the stochastic properties of the unbinding/rebinding events and analyze their mean number and their variance in the framework of simple two-state models. In the calculations, we exploit the analogy to single molecule fluorescence and particularly between unbinding/rebinding and photon emission events. Environmental fluctuation models are used to describe deviations from Markovian behavior. The second moment of the event-number distribution is found to be very sensitive to possible exchange processes and can thus be used to identify temporal fluctuations of th…

PhysicsModels MolecularProtein FoldingSpectrum AnalysisFOS: Physical sciencesGeneral Physics and AstronomySecond moment of areaCondensed Matter - Soft Condensed MatterSingle-molecule experimentQuantitative Biology::Subcellular ProcessesFolding (chemistry)Physical PhenomenaKineticsMotionPhoton emissionBreakageModels ChemicalChemical physicsSoft Condensed Matter (cond-mat.soft)ThermodynamicsPoisson DistributionPhysical and Theoretical ChemistryConstant (mathematics)SpectroscopyProtein BindingThe Journal of chemical physics
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Compact-envelope bright solitary wave in a DNA double strand

2012

International audience; We study the nonlinear dynamics of a homogeneous DNA chain which is based on site-dependent finite stacking and pairing enthalpies. We introduce an extended nonlinear Schroedinger equation describing the dynamics of modulated waves in DNA model. We obtain envelope bright solitary waves with compact support as a solution. Analytical criteria of existence and stability of this solution are derived. The stability of bright compactons is confirmed by numerical simulations of the exact equations of the lattice. The impact of the fi nite stacking energy is investigated and we show that some of these compact bright solitary waves are very robust, while others decompose quic…

PhysicsModels MolecularStackingMolecular models of DNAExact differential equationDNA01 natural sciences010305 fluids & plasmasNonlinear systemsymbols.namesakeClassical mechanicsModels Chemical[NLIN.NLIN-PS]Nonlinear Sciences [physics]/Pattern Formation and Solitons [nlin.PS]PairingLattice (order)0103 physical sciencessymbolsNucleic Acid ConformationA-DNAComputer Simulation[ NLIN.NLIN-PS ] Nonlinear Sciences [physics]/Pattern Formation and Solitons [nlin.PS]010306 general physicsNonlinear Schrödinger equation
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Irradiation facility at the TRIGA Mainz for treatment of liver metastases

2009

Abstract The TRIGA Mark II reactor at the University of Mainz provides ideal conditions for duplicating BNCT treatment as performed in Pavia, Italy, in 2001 and 2003 [Pinelli, T., Zonta, A., Altieri, S., Barni, S., Braghieri, A., Pedroni, P., Bruschi, P., Chiari, P., Ferrari, C., Fossati, F., Nano, R., Ngnitejeu Tata, S., Prati, U., Ricevuti, G., Roveda, L., Zonta, C., 2002. TAOrMINA: from the first idea to the application to the human liver. In: Sauerwein et al. (Eds.), Research and Development in Neutron Capture Therapy. Proceedings of the 10th International Congress on Neutron Capture Therapy, Monduzzi editore, Bologna, pp. 1065–1072]. In order to determine the optimal parameters for the…

PhysicsModels StatisticalRadiationHuman liverbusiness.industryRadiotherapy Planning Computer-AssistedLiver NeoplasmsBoron Neutron Capture TherapyIn Vitro TechniquesTRIGAFast NeutronsNuclear ReactorsGermanyInternational congressHumansNuclear medicinebusinessMonte Carlo MethodApplied Radiation and Isotopes
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Diffusion between evolving interfaces

2010

Diffusion in an evolving environment is studied by continuos-time Monte Carlo simulations. Diffusion is modelled by continuos-time random walkers on a lattice, in a dynamic environment provided by bubbles between two one-dimensional interfaces driven symmetrically towards each other. For one-dimensional random walkers constrained by the interfaces, the bubble size distribution domi- nates diffusion. For two-dimensional random walkers, it is also controlled by the topography and dynamics of the interfaces. The results of the one-dimensional case are recovered in the limit where the interfaces are strongly driven. Even with simple hard-core repulsion between the interfaces and the particles, …

PhysicsModels StatisticalSurface PropertiesPhysicsBubbleMonte Carlo methodFOS: Physical sciencesCondensed Matter - Soft Condensed MatterModels TheoreticalCondensed Matter PhysicsDiffusionLattice (order)Materials TestingSoft Condensed Matter (cond-mat.soft)Computer SimulationGeneral Materials ScienceStatistical physicsMonte Carlo MethodAlgorithms
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Elastic waves propagation in 1D fractional non-local continuum

2008

Aim of this paper is the study of waves propagation in a fractional, non-local 1D elastic continuum. The non-local effects are modeled introducing long-range central body interactions applied to the centroids of the infinitesimal volume elements of the continuum. These non-local interactions are proportional to a proper attenuation function and to the relative displacements between non-adjacent elements. It is shown that, assuming a power-law attenuation function, the governing equation of the elastic waves in the unbounded domain, is ruled by a Marchaud-type fractional differential equation. Wave propagation in bounded domain instead involves only the integral part of the Marchaud fraction…

PhysicsNon-local elasticityContinuum mechanicsWave propagationDifferential equationMathematical analysisCondensed Matter PhysicsFractional calculuDispersion of elastic waves; Lattice models; Long-range interactions; Non-local elasticity; Fractional calculus; Fractional power lawPower lawAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsFractional calculusLattice modelLove waveLong-range interactionIngenieurwissenschaftenDispersion of elastic waveBounded functionddc:620Settore ICAR/08 - Scienza Delle CostruzioniLongitudinal waveFractional power law
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