𝔖 Scriptorium
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πŸ“

theoretical physics research developments

✍ Scribed by John P.Sullivan; Andrew L. Montey

Publisher
Nova
Year
2019
Tongue
English
Leaves
240
Series
xixaro
Category
Library
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✦ Table of Contents

THEORETICAL PHYSICS RESEARCH DEVELOPMENTS
THEORETICAL PHYSICS RESEARCH DEVELOPMENTS
CONTENTS
PREFACE
COMMENTARY ON THE PRIOR ERRORS FOR CONSERVATION OF MOMENTUM
1. Foreword and Problem Statement
2. Comprehensive Derivation of Conservation Equation for Momentum on A Fluid Element
Symbols and Notation
DARK ENERGY AS THE SOURCE OF THE TIME DEPENDENT EINSTEIN COSMOLOGICAL CONSTANT
Abstract
Introduction
1. Universal Relaxation Processes
2. Time Dependent Cosmological Constant Ξ›
References
NON-LINEAR REFRACTIVE INDEX THEORY: I-GENERALIZED OPTICAL EXTINCTION THEORY AND DISPERSION RELATIONS
Abstract
1.Introduction
2.ModelEquations
3.GeneralizedOpticalExtinctionTheorem
4.OpticalBistabilityintheSmallDensityLimit
Summary
AppendixA
References
QUANTUM COHERENCE AND TUNABLE TRANSIENT BEHAVIOR OF A DOUBLE-CONTROL FOUR-LEVEL ATOMIC VAPOR
Abstract
1.Introduction
2.Double-ControlAtomicSystemandItsSteadyOpticalBehavior
3.QuantumInterferencesintheFour-LevelSystem
4.TheTunableTransientEvolutionalBehavior:ConstructiveandDestructiveInterferences
5.ApplicationstothePhotonicLogicGatesandOpticalSwitches
6.ConcludingRemarks
Acknowledgment
References
APPLICATION OF GEANT4 CODE IN GAMMA IRRADIATION PROCESSING
Abstract
1.Introduction
2.DosimetryQualityControlinGammaIrradiationProcessing
2.1.60CoFacilityDesign
2.2.StructureandOperationoftheGEANT4CodeSystem
3.ExperimentalBenchmarks
3.1.SpecialPointswithintheCell
3.2.TransversalDoseRateDistribution
3.3.LongitudinalDoseRateDistribution
3.4.3DDoseRateMappingofaPhantomProduct
4.ApplicationsofGEANT4
4.1.OptimizationofSomeParametersoftheTreatmentProcess
4.2.ImprovementofDoseUniformity
5.Conclusion
References
STUDY OF ATOMIC ENTANGLEMENT IN MULTIMODE CAVITY OPTICS
Abstract
I. Introduction
II. Atom-Field Interaction Hamiltonian
III. Population Dynamics and Atomic Entanglement for a Single Mode Field
IV. Entanglement of Two Atoms through Multimode (1>m) Dynamics
V. Conclusion
Acknowledgment
References
ANALYTICAL EXPRESSION FOR P-3HE TOTAL REACTION CROSS SECTION
Abstract
1. Introduction
2. Mathematical Formulation
3. Results and Conclusion
Acknowledgments
References
RADIATIVE TRANSITIONS OF MESONS IN AN INDEPENDENT-QUARK POTENTIAL MODEL
Abstract
1.Introduction
2.BasicFormalism
3.EnergyCorrectionstotheGround-StateMesonMasses
3.1.Center-of-massCorrection
3.2.One-GluonExchangeCorrection
3.3.ThePhysicalMassoftheGround-StateMeson
4.EffectiveMomentumDistributionFunction
5.RadiativeDecayWidthsbeyondStaticApproximation
6.ResultsandDiscussion
A.HyperfineSplittingsofNon-self-conjugateMesons
B.BeyondStaticCalculationofRadiativeTransitions
Acknowledgment
References
LASER PROTOTYPING OF POLYMER-BASED NANOPLASMONIC COMPONENTS
Abstract
Introduction
Laser Nanomanufacturing of SPP Optical Elements
Fabrication of Optical Waveguiding Dielectric Components
Leakage Radiation Imaging
Nanoplasmonic Components
Acknowledgments
References
AN APPROXIMATION METHOD FOR DETERMINATION OF THE COUPLING CONSTANT AND CHARGED PION FORM FACTOR AT 22Q=0.6-1.6GeVAND 22Q=2.45 GeV
Abstract
1. Introduction
2. The Model
3. Calculations and Results
References
HUBBARD MODEL AND FERROELECTRIC PHASE TRANSITION IN GRAPHENE
Abstract
Introduction
Basic Equations
3. Calculation Results
Conclusion
References
STUDY OF PRESSURE DEPENDENCE SUPERCONDUCTING STATE PARAMETERS OF BINARY METALLIC GLASSES BY PSEUDOPOTENTIAL THEORY
Abstract
Introduction
2. Computational Technique
3. Results and Discussion
4. Conclusion
References
CONTROL OVER GROUP VELOCITY IN A THREE LEVEL CLOSED LADDER SYSTEM WITH SPONTANEOUSLY GENERATED COHERENCE
Abstract
1.Introduction
2.Theory
2.1.TheSystemandDensityMatrixEquations
2.2.TheAnalyticalSolutions
3.ResultsandDiscussions
3.1.EffectofRelativePhaseonSusceptibilityandGroupIndexofProbeField
3.2.EffectofIncoherentPumponSusceptibilityandGroupIndexofProbeField
3.3.RealizationofSGCinLadderSystem
4.Conclusion
References
MODELLING OF MICROCRACKED BODIES USING THE CONCEPT OF CRACK OPENING MODE
1.AimandFrameworkoftheStudy
2.Micro-MacroTransitionfortheUnilateralEffectofDamageandtheDisplacementJumps
3.EquivalentMaterialSymmetryGroup,InducedAnisotropyandConsequences
4.DefinitionoftheCrackOpeningModeofaMicrocrackedBodyintheFrameworkofDamageMechanics
4.1.ExtensionoftheCrackOpeningModeofFractureMechanics
4.2.ExpressionoftheModeandRadiusVariablesUsingMacroscopicDis-placementJumps
4.3.ExpressionoftheModeandRadiusVariablesUsingMacroscopicStrainorStress
4.4.IllustrationoftheCrackOpeningModeforDamageMechanicsandRemarks
5.Extension:TakingintoAccounttheIrreversibleStrainPhenomenon
6.Application:AGeneralHyperelasticBehaviorLawforaMicrocrackedBody
6.1.FrameworkoftheModel
6.2.VectorialDescriptionoftheDamagePhenomenon
6.3.StateFunction
6.4.StateLawsandJustificationoftheHyperelasticCharacteroftheBehaviorLaw
6.5.DamageEvolutionLaw
6.6.ContinuityandConvexityConditions
6.7.RemarksontheInducedAnisotropyandtheDeactivationofDamage
6.8.IdentificationoftheModel
6.9.Application
6.9.1.DescriptionoftheMaterialandDamagePhenomenon
6.9.2.IdentificationoftheBehaviorLaw
6.9.3.IdentificationoftheDamageEvolutionLaw
6.9.4.CharacteristicFunctioningoftheModel
6.9.5.ComparisonbetweenExperienceandSimulation
7.Conclusion
8.Appendix:BuildingoftheObjectiveStateFunction[35][36]
References
INDEX

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