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Schrodinger operators, operators on manifolds, general differential operators, numerical studies, integral operators, discrete models, resonances, non-self-adjoint operators, random operators/matrices
1
vote
Accepted
Eigenfunctions of Schrödinger Operators on the boundary
In addition to Michael Renardy's apt comment about the physical sense of the situation, one can also see the boundary vanishing from the characterization of the Friedrichs extension. Namely, by constr …
2
votes
Why is this operator compact?
I think it is useful to ask the simpler question, why $f\cdot (1-\Delta)^{-1}$ is compact, on $\mathbb R^n$, when $f$ is a test function. Part of the point is that $\Delta$ itself (nevermind the Dirac …
2
votes
Is there a spectral theory approach to non-explicit Plancherel-type theorems?
Too big to fit well as comment: There is a seeming-technicality which is important to not overlook, the question of whether a symmetric operator is "essentially self-adjoint" or not. As I discovered o …
4
votes
Why do we distinguish the continuous spectrum and the residual spectrum?
For $\lambda$ in the continuous spectrum, while there may not be genuine eigenvectors, there are approximate eigenvectors.
That point is related to the fact that (as Bob Israel mentions) normal opera …
3
votes
Symmetric spaces, Horocycle spaces and intertwining operators
I infer that the relevant normalizations of the intertwinings do not make them send the normalized spherical vector to itself, or else the Hilbert integral of these isomorphisms would be the identity …
11
votes
Accepted
Eigenfunction of Laplacian
We can find all the tempered distributions $u$ such that $\Delta u=\lambda u$ (thus, including continuous functions going to $0$ at infinity, since these are locally integrable): taking Fourier transf …
14
votes
Accepted
Spectrum of Laplacian in non-compact manifolds
As far as I know, this is a very delicate question. That is, already in two dimensions, there can be only finite discrete spectrum. (See Phillips-Sarnak and Wolpert.)
Even on the modular curve $SL(2, …
7
votes
Accepted
Literature on behaviour of eigenfunctions under multiplication?
It can easily happen that the product of two eigenfunctions has an infinite eigenfunction expansion. Probably this is more typical (in natural problems) than not. For example, the Laplace-Beltrami ope …
4
votes
Harmonic oscillator discrete spectrum
The physical idea is that $-\Delta+q$ for a sufficiently-growing "confining potential" $q$ on $\mathbb R^n$ should have compact resolvent, which then proves discreteness of its spectrum. In many expli …
1
vote
Generalizing the Fourier isomorphism between Sobolev spaces and weighted $L^2$ spaces to (lo...
As a qualitative answer: although I do not know any cite-able sources, it is pretty clear that for compact (connected) real Lie groups a notion of Sobolev space parallel to that on products of circles …
7
votes
Accepted
Non-point spectrum for diagonalisable self-adjoint unbounded operator
Take $T$ to be the inverse of a bounded/continuous, self-adjoint operator with eigenvalues (an orthonormal basis) all rationals between $0$ and $1$. Then $T$ has an orthonormal basis of eigenvectors, …
11
votes
Accepted
History of spectral methods to the study of real analytic $GL_2$-Eisenstein series
R. Rankin's 1939 paper giving a non-trivial estimate on Ramanujan's $\tau$ function used the "real-analytic Eisenstein series" for $SL_2(\mathbb Z)$, at least. Selberg's related paper just-slightly la …