Nodal domains of a non-separable problem-the right-angled isosceles triangle

Amit Aronovitch; Ram Band; David Fajman; Sven Gnutzmann

doi:10.1088/1751-8113/45/8/085209

Nodal domains of a non-separable problem-the right-angled isosceles triangle

Amit Aronovitch, Ram Band, David Fajman, Sven Gnutzmann

Weizmann Institute of Science

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

Abstract

We study the nodal set of eigenfunctions of the Laplace operator on the right-angled isosceles triangle. A local analysis of the nodal pattern provides an algorithm for computing the number nu(n) of nodal domains for any eigenfunction. In addition, an exact recursive formula for the number of nodal domains is found to reproduce all existing data. Eventually, we use the recursion formula to analyse a large sequence of nodal counts statistically. Our analysis shows that the distribution of nodal counts for this triangular shape has a much richer structure than the known cases of regular separable shapes or completely irregular shapes. Furthermore, we demonstrate that the nodal count sequence contains information about the periodic orbits of the corresponding classical ray dynamics.

Original language	English
Article number	085209
Number of pages	18
Journal	JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL
Volume	45
Issue number	8
DOIs	https://doi.org/10.1088/1751-8113/45/8/085209
State	Published - 2 Mar 2012

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
General Physics and Astronomy
Statistics and Probability
Mathematical Physics
Modelling and Simulation

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title = "Nodal domains of a non-separable problem-the right-angled isosceles triangle",

abstract = "We study the nodal set of eigenfunctions of the Laplace operator on the right-angled isosceles triangle. A local analysis of the nodal pattern provides an algorithm for computing the number nu(n) of nodal domains for any eigenfunction. In addition, an exact recursive formula for the number of nodal domains is found to reproduce all existing data. Eventually, we use the recursion formula to analyse a large sequence of nodal counts statistically. Our analysis shows that the distribution of nodal counts for this triangular shape has a much richer structure than the known cases of regular separable shapes or completely irregular shapes. Furthermore, we demonstrate that the nodal count sequence contains information about the periodic orbits of the corresponding classical ray dynamics.",

author = "Amit Aronovitch and Ram Band and David Fajman and Sven Gnutzmann",

note = "Uzy Smilansky; ISF [169/09]; EPSRC [EP/H028803/1]; Minerva FoundationWe are grateful to Uzy Smilansky for presenting the problem with us and for continuous support of the work. We thank Amit Godel for fruitful discussions. AA and RB thank the University of Nottingham for hospitality. DF and SG thank the Weizmann Institute for hospitality. The work was supported by ISF grant 169/09. RB is supported by EPSRC, grant no EP/H028803/1. DF was supported by the Minerva Foundation.",

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doi = "10.1088/1751-8113/45/8/085209",

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T1 - Nodal domains of a non-separable problem-the right-angled isosceles triangle

AU - Aronovitch, Amit

AU - Band, Ram

AU - Fajman, David

AU - Gnutzmann, Sven

N1 - Uzy Smilansky; ISF [169/09]; EPSRC [EP/H028803/1]; Minerva FoundationWe are grateful to Uzy Smilansky for presenting the problem with us and for continuous support of the work. We thank Amit Godel for fruitful discussions. AA and RB thank the University of Nottingham for hospitality. DF and SG thank the Weizmann Institute for hospitality. The work was supported by ISF grant 169/09. RB is supported by EPSRC, grant no EP/H028803/1. DF was supported by the Minerva Foundation.

PY - 2012/3/2

Y1 - 2012/3/2

N2 - We study the nodal set of eigenfunctions of the Laplace operator on the right-angled isosceles triangle. A local analysis of the nodal pattern provides an algorithm for computing the number nu(n) of nodal domains for any eigenfunction. In addition, an exact recursive formula for the number of nodal domains is found to reproduce all existing data. Eventually, we use the recursion formula to analyse a large sequence of nodal counts statistically. Our analysis shows that the distribution of nodal counts for this triangular shape has a much richer structure than the known cases of regular separable shapes or completely irregular shapes. Furthermore, we demonstrate that the nodal count sequence contains information about the periodic orbits of the corresponding classical ray dynamics.

AB - We study the nodal set of eigenfunctions of the Laplace operator on the right-angled isosceles triangle. A local analysis of the nodal pattern provides an algorithm for computing the number nu(n) of nodal domains for any eigenfunction. In addition, an exact recursive formula for the number of nodal domains is found to reproduce all existing data. Eventually, we use the recursion formula to analyse a large sequence of nodal counts statistically. Our analysis shows that the distribution of nodal counts for this triangular shape has a much richer structure than the known cases of regular separable shapes or completely irregular shapes. Furthermore, we demonstrate that the nodal count sequence contains information about the periodic orbits of the corresponding classical ray dynamics.

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M3 - مقالة

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ER -

Nodal domains of a non-separable problem-the right-angled isosceles triangle

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