Initial-boundary value problems describing mobile carrier transport in semiconductor devices

Gröger, Konrad

Gröger, Konrad

Commentationes Mathematicae Universitatis Carolinae, Tome 026 (1985), p. 75-89 / Harvested from Czech Digital Mathematics Library

Access to full text
Full (PDF)

Publié le : 1985-01-01

MR 797294 | Zbl 0581.35069

Classification: 35B40, 35D05, 35Q20, 35Q99, 82A99

@article{106348,
     author = {Konrad Gr\"oger},
     title = {Initial-boundary value problems describing mobile carrier transport in semiconductor devices},
     journal = {Commentationes Mathematicae Universitatis Carolinae},
     volume = {026},
     year = {1985},
     pages = {75-89},
     zbl = {0581.35069},
     mrnumber = {797294},
     language = {en},
     url = {http://dml.mathdoc.fr/item/106348}
}

Gröger, Konrad. Initial-boundary value problems describing mobile carrier transport in semiconductor devices. Commentationes Mathematicae Universitatis Carolinae, Tome 026 (1985) pp. 75-89. http://gdmltest.u-ga.fr/item/106348/

Bibliographie

N. D. Alikakos An application of the invariance principle to reaction-diffusion equations, J. Diff. Equations 33 (1979), 201-225. (1979) | MR 0542670 | Zbl 0386.34046

H. Elschner A. Möschwitzer A. Reibiger Reehnergestützte Analyse in der Elektronik, Verlag Technik Berlin 1977. (1977)

W. Fichtner D. Rose (Ed.) , IEEE Trans. Electron Devices ED-30 (1983). (1983)

H. Gajewski On existence, uniqueness and asymptotic behavior of solutions of the basic equations for carrier transport in semiconductors, Zeitschr. Angew. Math. Mech., to appear. | MR 0841263 | Zbl 0579.35016

H. Gajewski On the existence of steady state carrier distributions in semiconductors, In: Problems und Methoden der Mathematlschen Physik, Teubner-Texte zur Mathematik, to appear. | MR 0781760 | Zbl 0562.35022

H. Gajewski On uniqueness, stability and construction of steady state carrier distributions in semiconductors, to appear.

H. Gajewski K. Gröger On the basic equations for carrier transport in semiconductors, submitted to J. Math. Anal. Appl. | MR 0826656

B. V. Gokhale Numerical solutions for a one-dimensional silicon p-n-p transistor, IEEE Trans. Electron Devices ED-17 (1970), 594-602. (1970)

P. Grisvard Behavior of the solutions of an elliptic boundary value problem in a polygonal or polyhedral domain, In: numerical solution of partial differential equations III (1976), 207-274. (1976) | MR 0466912 | Zbl 0361.35022

K. Gröger Asymptotic behavior of solutions to a class of diffusion-reaction equations, Math. Nachr. 112 (1983), 19-33. (1983) | MR 0726851

P. Horn R. Jackson General mass action kinetics, Arch. Rat. Mech. Anal. 47 (1972), 81-116. (1972) | MR 0400923

M. S. Mock On equations describing steady-state carrier distributions in a semiconductor device, Comm. Pure Appl. Math. 25 (1972), 781-792. (1972) | MR 0323233

M. S. Mock An initial value problem from semiconductor device theory, SIAM J. Math. Anal. 5 (1974), 597-612. (1974) | MR 0417573 | Zbl 0254.35020

M. S. Mock Asymptotic behavior of solutions of transport equations for semiconductor devices, J. Math. Anal. Appl. 49 (1975), 215-225. (1975) | MR 0355383 | Zbl 0298.35033

M. S. Mock Analysis of mathematical models of semiconductor devices, Boole Press Dublin 1983. (1983) | MR 0697094 | Zbl 0532.65081

J. Moser A new proof of De Giorgi's theorem concerning the regularity problem for elliptic differential equations, Comm. Pure Appl. Math. 13 (1960), 457-468. (1960) | MR 0170091 | Zbl 0111.09301

W. Van Roosbroeck Theory of flow of electrons and holes in germanium and other semiconductors, Bell Syst. Tech. J. 29 (1950), 560-607. (1950)

T. I. Seidman Steady state solutions of diffusion-reaction systems with electrostatic convection, Nonlinear Analysis 4 (1980), 623-637. (1980) | MR 0574378 | Zbl 0438.35030