S. V. Petropavlovsky scite author profile

S. V. Petropavlovsky

3Publications

32Citation Statements Received

31Citation Statements Given

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Affiliations

National Research University Higher School of Economics, North Carolina State University, Institute of Engineering Physics

Publications

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Quasi-Lacunae of Maxwell's Equations

Petropavlovsky¹,

Tsynkov²

2011

SIAM J. Appl. Math.

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Classical lacunae in the solutions of hyperbolic differential equations and systems (in the spaces of odd dimension) are a manifestation of the Huygens' principle. If the source terms are compactly supported in space and time, then, at any finite location in space, the solution becomes identically zero after a finite interval of time. In other words, the propagating waves have sharp aft fronts. For Maxwell's equations though, even if the currents that drive the field are compactly supported in time, they may still lead to the accumulation of charges. In that case, the solution won't have the lacunae per se. We show, however, that the notion of classical lacunae can be generalized, and that even when the steady-state charges are present, the waves still have sharp aft fronts. Yet behind those aft fronts, there is a nonzero electrostatic solution rather than one identically zero.

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Computation of singular solutions to the Helmholtz equation with high order accuracy

Britt

Petropavlovsky

Tsynkov

et al. 2015

Applied Numerical Mathematics

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High-order numerical solution of the Helmholtz equation for domains with reentrant corners

Magura

Petropavlovsky

Tsynkov

et al. 2017

Applied Numerical Mathematics

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