Hangzhou Lectures on Eigenfunctions of the Laplacian

Name: Hangzhou Lectures on Eigenfunctions of the Laplacian
Brand: Princeton University Press
SKU: 9780691160788
Price: 92.99 EUR
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A01=Christopher D. Sogge

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Author_Christopher D. Sogge

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Calculation

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Cauchy problem

Chain rule

Change of variables

Cholesky decomposition

Compact space

Constant function

Convolution

Coordinate system

COP=United States

Corollary

Counting

Curvature

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Diffeomorphism

Differential operator

Division by zero

Egorov's theorem

Eigenfunction

Eigenvalues and eigenvectors

eq_isMigrated=2

Ergodic theory

Error term

Estimation

Euclidean space

Euler's formula

Exponential function

Fourier inversion theorem

Fourier transform

Fundamental domain

Fundamental solution

Gauss's lemma (number theory)

Geodesic

Hamiltonian mechanics

Heaviside step function

Integration by parts

Jacobian matrix and determinant

Language_English

Lebesgue measure

Linear combination

Linear map

Natural number

Open set

Orthonormal basis

PA=Available

Parametrix

Partition of unity

Periodic function

Polar coordinate system

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Probability measure

Projection (linear algebra)

PS=Active

Pseudo-differential operator

Pullback

Pullback (category theory)

Pullback (differential geometry)

Quadratic form

Riemannian manifold

Sectional curvature

Self-adjoint

Smoothness

Sobolev space

softlaunch

Special case

Square root

Subsequence

Subset

Support (mathematics)

Tangent space

Tangent vector

Theorem

Topology

Variable (mathematics)

Vector field

Volume element

Weyl law

Product details

ISBN 9780691160788
Weight: 425g
Dimensions: 178 x 254mm
Publication Date: 10 Mar 2014
Publisher: Princeton University Press
Publication City/Country: US
Product Form: Paperback
Language: English

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Based on lectures given at Zhejiang University in Hangzhou, China, and Johns Hopkins University, this book introduces eigenfunctions on Riemannian manifolds. Christopher Sogge gives a proof of the sharp Weyl formula for the distribution of eigenvalues of Laplace-Beltrami operators, as well as an improved version of the Weyl formula, the Duistermaat-Guillemin theorem under natural assumptions on the geodesic flow. Sogge shows that there is quantum ergodicity of eigenfunctions if the geodesic flow is ergodic. Sogge begins with a treatment of the Hadamard parametrix before proving the first main result, the sharp Weyl formula. He avoids the use of Tauberian estimates and instead relies on sup-norm estimates for eigenfunctions. The author also gives a rapid introduction to the stationary phase and the basics of the theory of pseudodifferential operators and microlocal analysis. These are used to prove the Duistermaat-Guillemin theorem. Turning to the related topic of quantum ergodicity, Sogge demonstrates that if the long-term geodesic flow is uniformly distributed, most eigenfunctions exhibit a similar behavior, in the sense that their mass becomes equidistributed as their frequencies go to infinity.

Christopher D. Sogge is the J. J. Sylvester Professor of Mathematics at Johns Hopkins University. He is the author of Fourier Integrals in Classical Analysis and Lectures on Nonlinear Wave Equations.