Search results for "102"

showing 10 items of 2892 documents

Eigenvalues of non-hermitian matrices: a dynamical and an iterative approach. Application to a truncated Swanson model

2020

We propose two different strategies to find eigenvalues and eigenvectors of a given, not necessarily Hermitian, matrix (Formula presented.). Our methods apply also to the case of complex eigenvalues, making the strategies interesting for applications to physics and to pseudo-Hermitian quantum mechanics in particular. We first consider a dynamical approach, based on a pair of ordinary differential equations defined in terms of the matrix (Formula presented.) and of its adjoint (Formula presented.). Then, we consider an extension of the so-called power method, for which we prove a fixed point theorem for (Formula presented.) useful in the determination of the eigenvalues of (Formula presented…

Pure mathematicsestimation of eigenvaluesGeneral Mathematics010102 general mathematicsGeneral EngineeringFixed-point theoremFOS: Physical sciencesExtension (predicate logic)Mathematical Physics (math-ph)Numerical Analysis (math.NA)01 natural sciencesHermitian matrixHessenberg matrix010101 applied mathematicsMatrix (mathematics)finite-dimensional HamiltonianPower iterationOrdinary differential equationFOS: MathematicsMathematics - Numerical Analysis0101 mathematicsSettore MAT/07 - Fisica MatematicaEigenvalues and eigenvectorsMathematical PhysicsMathematics

researchProduct

Removable sets for intrinsic metric and for holomorphic functions

2019

We study the subsets of metric spaces that are negligible for the infimal length of connecting curves; such sets are called metrically removable. In particular, we show that every totally disconnected set with finite Hausdorff measure of codimension 1 is metrically removable, which answers a question raised by Hakobyan and Herron. The metrically removable sets are shown to be related to other classes of "thin" sets that appeared in the literature. They are also related to the removability problems for classes of holomorphic functions with restrictions on the derivative.

Pure mathematicsintrinsic metricsGeneral MathematicsHolomorphic function01 natural sciencesIntrinsic metricSet (abstract data type)Mathematics - Metric GeometryTotally disconnected spaceholomorphic functionsFOS: MathematicsHausdorff measure0101 mathematicsComplex Variables (math.CV)MathematicsPartial differential equationmatematiikkaMathematics - Complex Variables010102 general mathematicsMetric Geometry (math.MG)Codimensionmetriset avaruudet010101 applied mathematicsMetric space28A78 (Primary) 26A16 30C62 30H05 49Q15 51F99 (Secondary)Analysis

researchProduct

Monotonicity and total boundednessin spaces of measurable functions

2017

Abstract We define and study the moduli d(x, 𝓐, D) and i(x, 𝓐,D) related to monotonicity of a given function x of the space L 0(Ω) of real-valued “measurable” functions defined on a linearly ordered set Ω. We extend the definitions to subsets X of L 0(Ω), and we use the obtained quantities, d(X) and i(X), to estimate the Hausdorff measure of noncompactness γ(X) of X. Compactness criteria, in special cases, are obtained.

Pure mathematicslinear continuumMeasurable functionGeneral Mathematics010102 general mathematicsMonotonic function01 natural scienceslinearly ordered set010101 applied mathematicsmodulus of $A$-decreasemeasure of noncompactneLinear continuumSettore MAT/05 - Analisi Matematicamodulus of $A$-increase0101 mathematicsMeasurable functiontotal boundedneMathematics

researchProduct

On the Cauchy problem for microlocally symmetrizable hyperbolic systems with log-Lipschitz coefficients

2017

International audience; The present paper concerns the well-posedness of the Cauchy problem for microlocally symmetrizable hyperbolic systems whose coefficients and symmetrizer are log-Lipschitz continuous, uniformly in time and space variables. For the global in space problem we establish energy estimates with finite loss of derivatives, which is linearly increasing in time. This implies well-posedness in H ∞ , if the coefficients enjoy enough smoothness in x. From this result, by standard arguments (i.e. extension and convexification) we deduce also local existence and uniqueness. A huge part of the analysis is devoted to give an appropriate sense to the Cauchy problem, which is not evide…

Pure mathematicsloss of derivativeshyperbolic equationGeneral MathematicsMathematics::Analysis of PDEsmicrolocal symmetrizabilityhyperbolic equations; hyperbolic systems; log-lipschitz coefficientsSpace (mathematics)01 natural sciencesMathematics - Analysis of PDEslog-Lipschitz regularity; loss of derivatives; global and local Cauchy problem; well-posedness; non-characteristic Cauchy problemwell-posednessFOS: MathematicsInitial value problem[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]Uniqueness0101 mathematics[MATH.MATH-AP] Mathematics [math]/Analysis of PDEs [math.AP]MathematicsSmoothness (probability theory)Spacetimelog-lipschitz coefficients010102 general mathematicsglobal and local Cauchy problemExtension (predicate logic)Lipschitz continuitynon-characteristic Cauchy problemhyperbolic equationshyperbolic systemMathematics Subject Classificationlog-Lipschitz regularityhyperbolic systemsAnalysis of PDEs (math.AP)

researchProduct

A Primer on Carnot Groups: Homogenous Groups, Carnot-Carathéodory Spaces, and Regularity of Their Isometries

2017

AbstractCarnot groups are distinguished spaces that are rich of structure: they are those Lie groups equipped with a path distance that is invariant by left-translations of the group and admit automorphisms that are dilations with respect to the distance. We present the basic theory of Carnot groups together with several remarks.We consider them as special cases of graded groups and as homogeneous metric spaces.We discuss the regularity of isometries in the general case of Carnot-Carathéodory spaces and of nilpotent metric Lie groups.

Pure mathematicsmetric groupssub-finsler geometryengineering.material01 natural sciencesdifferentiaaligeometriasymbols.namesakesub-Finsler geometryMathematics::Metric Geometry0101 mathematics22f3014m17MathematicsPrimer (paint)QA299.6-433homogeneous groupshomogeneous spacesApplied Mathematics010102 general mathematics05 social sciencesryhmäteorianilpotent groupsCarnot groups; homogeneous groups; homogeneous spaces; metric groups; nilpotent groups; sub-Finsler geometry; sub-Riemannian geometry; Analysis; Geometry and Topology; Applied Mathematicssub-riemannian geometrysub-Riemannian geometry43a8053c17Carnot groupscarnot groupsengineeringsymbols22e25Geometry and Topology0509 other social sciences050904 information & library sciencesCarnot cycleAnalysisAnalysis and Geometry in Metric Spaces

researchProduct

Quasispheres and metric doubling measures

2018

Applying the Bonk-Kleiner characterization of Ahlfors 2-regular quasispheres, we show that a metric two-sphere $X$ is a quasisphere if and only if $X$ is linearly locally connected and carries a weak metric doubling measure, i.e., a measure that deforms the metric on $X$ without much shrinking.

Pure mathematicsmetric spaces30L10 (Primary) 30C65 28A75 (Secondary)General MathematicsMathematicsofComputing_GENERALCharacterization (mathematics)01 natural sciencesMeasure (mathematics)Intrinsic metricfunktioteoria0103 physical sciencesFOS: MathematicsComplex Variables (math.CV)0101 mathematicsMathematicsDiscrete mathematicsMathematics - Complex VariablesApplied MathematicsInjective metric spaceta111010102 general mathematicsmetriset avaruudetcomplex analysisConvex metric spacemeasure theoryMetric (mathematics)mittateoria010307 mathematical physicsFisher information metricProceedings of the American Mathematical Society

researchProduct

A Note on States and Traces from Biorthogonal Sets

2019

In this paper, following Bagarello, Trapani, and myself, we generalize the Gibbs states and their related KMS-like conditions. We have assumed that H 0 , H are closed and, at least, densely defined, without giving information on the domain of these operators. The problem we address in this paper is therefore to find a dense domain D that allows us to generalize the states of Gibbs and take them in their natural environment i.e., defined in L &dagger

Pure mathematicsnon-Hermitian HamiltoniansGibbs statePhysics and Astronomy (miscellaneous)lcsh:MathematicsGeneral Mathematicsbiorthogonal sets of vector010102 general mathematicsGibbs stateslcsh:QA1-93901 natural sciencesDomain (software engineering)TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESSettore MAT/05 - Analisi MatematicaChemistry (miscellaneous)Biorthogonal system0103 physical sciencesComputer Science (miscellaneous)0101 mathematics010306 general physicsMathematicsSymmetry

researchProduct

Cyclic (noncyclic) phi-condensing operator and its application to a system of differential equations

2019

We establish a best proximity pair theorem for noncyclic φ-condensing operators in strictly convex Banach spaces by using a measure of noncompactness. We also obtain a counterpart result for cyclic φ-condensing operators in Banach spaces to guarantee the existence of best proximity points, and so, an extension of Darbo’s fixed point theorem will be concluded. As an application of our results, we study the existence of a global optimal solution for a system of ordinary differential equations.

Pure mathematicsnoncyclic φ-condensing operatorDifferential equationApplied Mathematics010102 general mathematicsBanach spaceRegular polygonFixed-point theoremlcsh:QA299.6-433Extension (predicate logic)lcsh:Analysis01 natural sciencesMeasure (mathematics)Noncyclic ϕ-condensing operator010101 applied mathematicsstrictly convex Banach spaceOperator (computer programming)Settore MAT/05 - Analisi Matematicabest proximity pairOrdinary differential equationordinary differential equations0101 mathematicsAnalysisOrdinary differential equationMathematicsNonlinear Analysis

researchProduct

Solutions and positive solutions for superlinear Robin problems

2019

We consider nonlinear, nonhomogeneous Robin problems with a (p − 1)-superlinear reaction term, which need not satisfy the Ambrosetti-Rabinowitz condition. We look for positive solutions and prove existence and multiplicity theorems. For the particular case of the p-Laplacian, we prove existence results under a different geometry near the origin.We consider nonlinear, nonhomogeneous Robin problems with a (p − 1)-superlinear reaction term, which need not satisfy the Ambrosetti-Rabinowitz condition. We look for positive solutions and prove existence and multiplicity theorems. For the particular case of the p-Laplacian, we prove existence results under a different geometry near the origin.

Pure mathematicsnonlinear maximum principle010102 general mathematicsMathematics::Analysis of PDEssuperlinear reactionStatistical and Nonlinear PhysicsMultiplicity (mathematics)01 natural sciencesTerm (time)Nonlinear systempositive solutionSettore MAT/05 - Analisi Matematica0103 physical sciencesNonhomogeneous differential operatornonlinear regularity010307 mathematical physics0101 mathematicscritical groupsMathematical PhysicsMathematicsJournal of Mathematical Physics

researchProduct

$C^{1,��}$ regularity for the normalized $p$-Poisson problem

2017

We consider the normalized $p$-Poisson problem $$-��^N_p u=f \qquad \text{in}\quad ��.$$ The normalized $p$-Laplacian $��_p^{N}u:=|D u|^{2-p}��_p u$ is in non-divergence form and arises for example from stochastic games. We prove $C^{1,��}_{loc}$ regularity with nearly optimal $��$ for viscosity solutions of this problem. In the case $f\in L^{\infty}\cap C$ and $p>1$ we use methods both from viscosity and weak theory, whereas in the case $f\in L^q\cap C$, $q>\max(n,\frac p2,2)$, and $p>2$ we rely on the tools of nonlinear potential theory.

Pure mathematicsnormalized p-laplacianregularitymathematicsp-poisson problemApplied MathematicsGeneral Mathematics010102 general mathematicsta111α01 natural sciences35J60 35B65 35J92Potential theory010101 applied mathematicslocal C1Nonlinear systemViscosityviscosityFOS: Mathematics0101 mathematicsPoisson problemMathematicsAnalysis of PDEs (math.AP)

researchProduct