Journal article

Solving Eigenvalue Problems on Curved Surfaces using the Closest Point Method

Abstract:: Eigenvalue problems are fundamental to mathematics and science. We present a simple algorithm for determining eigenvalues and eigenfunctions of the Laplace–Beltrami operator on rather general curved surfaces. Our algorithm, which is based on the Closest Point Method, relies on an embedding of the surface in a higher-dimensional space, where standard Cartesian finite difference and interpolation schemes can be easily applied. We show that there is a one-to-one correspondence between a problem defined in the embedding space and the original surface problem. For open surfaces, we present a simple way to impose Dirichlet and Neumann boundary conditions while maintaining second-order accuracy. Convergence studies and a series of examples demonstrate the effectiveness and generality of our approach.

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APA Style

Macdonald, C., Brandman, J., & Ruuth, S. (2011). Solving Eigenvalue Problems on Curved Surfaces using the Closest Point Method.

MLA Style

Macdonald, C, et al. Solving Eigenvalue Problems on Curved Surfaces Using the Closest Point Method. 2011.

Chicago Style

Macdonald, C, J Brandman, and S Ruuth. 2011. Solving Eigenvalue Problems on Curved Surfaces Using the Closest Point Method.
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Authors

+ Macdonald, C More by this author

Role:: Author

+ Brandman, J More by this author

Role:: Author

+ Ruuth, S More by this author

Role:: Author

Publication date:: 2011-01-01

UUID:: uuid:ea9469d4-282d-4544-9f0e-3d8a8a45b9aa
Local pid:: oai:eprints.maths.ox.ac.uk:1169
Deposit date:: 2011-05-20
ARK identifier:: ark:/29072/ora_ea9469d4282d45449f0e3d8a8a45b9aa

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Copyright date:: 2011

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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