Approximations of spectra of Schrödinger operators with complex potentials on ℝd

Sabine Bögli; Petr Siegl; Christiane Tretter

doi:10.1080/03605302.2017.1330342

Approximations of spectra of Schrödinger operators with complex potentials on ℝ^d

Sabine Bögli, Petr Siegl, Christiane Tretter^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

We study spectral approximations of Schrödinger operators T = −Δ+Q with complex potentials on Ω = ℝ^d, or exterior domains Ω⊂ℝ^d, by domain truncation. Our weak assumptions cover wide classes of potentials Q for which T has discrete spectrum, of approximating domains Ω_n, and of boundary conditions on ∂Ω_n such as mixed Dirichlet/Robin type. In particular, Re Q need not be bounded from below and Q may be singular. We prove generalized norm resolvent convergence and spectral exactness, i.e. approximation of all eigenvalues of T by those of the truncated operators T_n without spectral pollution. Moreover, we estimate the eigenvalue convergence rate and prove convergence of pseudospectra. Numerical computations for several examples, such as complex harmonic and cubic oscillators for d = 1,2,3, illustrate our results.

Original language	English
Pages (from-to)	1001-1041
Number of pages	41
Journal	Communications in Partial Differential Equations
Volume	42
Issue number	7
DOIs	https://doi.org/10.1080/03605302.2017.1330342
Publication status	Published - 3 Jul 2017
Externally published	Yes

Keywords

Complex potential
domain truncation
eigenvalue approximation
harmonic oscillator
Laplace operator
non-selfadjoint Schrödinger operator
pseudospectra
resolvent convergence
spectral exactness
spectral pollution
spurious eigenvalue

ASJC Scopus subject areas

Analysis
Applied Mathematics

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10.1080/03605302.2017.1330342

Cite this

@article{4eee4729605a4eda9f5d9667b80ce1fd,

title = "Approximations of spectra of Schr{\"o}dinger operators with complex potentials on ℝd",

abstract = "We study spectral approximations of Schr{\"o}dinger operators T = −Δ+Q with complex potentials on Ω = ℝd, or exterior domains Ω⊂ℝd, by domain truncation. Our weak assumptions cover wide classes of potentials Q for which T has discrete spectrum, of approximating domains Ωn, and of boundary conditions on ∂Ωn such as mixed Dirichlet/Robin type. In particular, Re Q need not be bounded from below and Q may be singular. We prove generalized norm resolvent convergence and spectral exactness, i.e. approximation of all eigenvalues of T by those of the truncated operators Tn without spectral pollution. Moreover, we estimate the eigenvalue convergence rate and prove convergence of pseudospectra. Numerical computations for several examples, such as complex harmonic and cubic oscillators for d = 1,2,3, illustrate our results.",

keywords = "Complex potential, domain truncation, eigenvalue approximation, harmonic oscillator, Laplace operator, non-selfadjoint Schr{\"o}dinger operator, pseudospectra, resolvent convergence, spectral exactness, spectral pollution, spurious eigenvalue",

author = "Sabine B{\"o}gli and Petr Siegl and Christiane Tretter",

note = "Funding Information: The authors gratefully acknowledge the support of several funding bodies: Swiss National Science Foundation, SNF, grants 200020_146477 and 169104 (SB, CT); SNF Early Postdoc.Mobility project P2BEP2_159007 (SB); SCIEX-NMS Fellowship 11.263 and SNF Ambizione project PZ00P2_154786 (PS). They also thank A. Hansen for drawing their attention to the Attouch-Wets metric and M. Tater for sharing his numerical values on the imaginary cubic oscillator. PS also thanks D. Krej?i??k for fruitful discussions, e.g., on the results in [40 ]. Publisher Copyright: {\textcopyright} 2017 Taylor & Francis.",

year = "2017",

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doi = "10.1080/03605302.2017.1330342",

language = "English",

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T1 - Approximations of spectra of Schrödinger operators with complex potentials on ℝd

AU - Bögli, Sabine

AU - Siegl, Petr

AU - Tretter, Christiane

N1 - Funding Information: The authors gratefully acknowledge the support of several funding bodies: Swiss National Science Foundation, SNF, grants 200020_146477 and 169104 (SB, CT); SNF Early Postdoc.Mobility project P2BEP2_159007 (SB); SCIEX-NMS Fellowship 11.263 and SNF Ambizione project PZ00P2_154786 (PS). They also thank A. Hansen for drawing their attention to the Attouch-Wets metric and M. Tater for sharing his numerical values on the imaginary cubic oscillator. PS also thanks D. Krej?i??k for fruitful discussions, e.g., on the results in [40 ]. Publisher Copyright: © 2017 Taylor & Francis.

PY - 2017/7/3

Y1 - 2017/7/3

N2 - We study spectral approximations of Schrödinger operators T = −Δ+Q with complex potentials on Ω = ℝd, or exterior domains Ω⊂ℝd, by domain truncation. Our weak assumptions cover wide classes of potentials Q for which T has discrete spectrum, of approximating domains Ωn, and of boundary conditions on ∂Ωn such as mixed Dirichlet/Robin type. In particular, Re Q need not be bounded from below and Q may be singular. We prove generalized norm resolvent convergence and spectral exactness, i.e. approximation of all eigenvalues of T by those of the truncated operators Tn without spectral pollution. Moreover, we estimate the eigenvalue convergence rate and prove convergence of pseudospectra. Numerical computations for several examples, such as complex harmonic and cubic oscillators for d = 1,2,3, illustrate our results.

AB - We study spectral approximations of Schrödinger operators T = −Δ+Q with complex potentials on Ω = ℝd, or exterior domains Ω⊂ℝd, by domain truncation. Our weak assumptions cover wide classes of potentials Q for which T has discrete spectrum, of approximating domains Ωn, and of boundary conditions on ∂Ωn such as mixed Dirichlet/Robin type. In particular, Re Q need not be bounded from below and Q may be singular. We prove generalized norm resolvent convergence and spectral exactness, i.e. approximation of all eigenvalues of T by those of the truncated operators Tn without spectral pollution. Moreover, we estimate the eigenvalue convergence rate and prove convergence of pseudospectra. Numerical computations for several examples, such as complex harmonic and cubic oscillators for d = 1,2,3, illustrate our results.

KW - Complex potential

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KW - eigenvalue approximation

KW - harmonic oscillator

KW - Laplace operator

KW - non-selfadjoint Schrödinger operator

KW - pseudospectra

KW - resolvent convergence

KW - spectral exactness

KW - spectral pollution

KW - spurious eigenvalue

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