Diffraction pour l'équation de la chaleur

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Diffraction pour l'équation de la chaleur

T. Hargé

Source: Duke Math. J. Volume 73, Number 3 (1994), 713-744.

First Page: Show

Primary Subjects: 35K05

Secondary Subjects: 58E10

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Links and Identifiers

Permanent link to this document: http://projecteuclid.org/euclid.dmj/1077289021
Mathematical Reviews number (MathSciNet): MR1262932
Zentralblatt MATH identifier: 0805.35039
Digital Object Identifier: doi:10.1215/S0012-7094-94-07328-6

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References

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[Bu] V. S. Buslaev, Continuum integrals and the asymptotic behavior of the solutions of parabolic equations at $t\rightarrow0$, applications to diffraction, Topics in Mathematical Physics, Vol. 2, Spectral Theory and Problems in Diffraction, Plenum, New York, 1968, pp. 67–86.

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Digital Object Identifier: doi:10.1137/0520074

[IK] N. Ikeda and S. Kusuoka, Short time asymptotics for fundamental solutions of diffusion equations, Stochastic Analysis (Paris, 1987), Lecture Notes in Math., vol. 1322, Springer-Verlag, Berlin, 1988, pp. 37–49.

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[Le] G. Lebeau, Régularité Gevrey $3$ pour la diffraction, Comm. Partial Differential Equations 9 (1984), no. 15, 1437–1494.

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[Mi] J. Milnor, Morse Theory, Ann. of Math. Stud., vol. 51, Princeton Univ. Press, Princeton, 1963.

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[NS] J. R. Norris and D. W. Stroock, Estimates on the fundamental solution to heat flows with uniformly elliptic coefficients, Proc. London Math. Soc. (3) 62 (1991), no. 2, 373–402.

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[vdB] M. van den Berg, A Gaussian lower bound for the Dirichlet heat kernel, Bull. London Math. Soc. 24 (1992), no. 5, 475–477.

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Digital Object Identifier: doi:10.1112/blms/24.5.475

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