ВУЗ:
Составители:
Литература 129
32. Янке Е., Эмде Ф., Леш Ф. Специальные функции / Е. Янке,
Ф. Эмде, Ф. Леш. — М.: Наука, 1968. — 344 с.
33. Bagby J.S. Integral formulation for analysis of integrated dielectric
waveguides / J.S. Bagby, D.P. Nyquist, B.C. Drachman // IEEE
Trans. Microwave Theory Tech. — 1985. — MTT-29. — P. 906–915.
34. Bagby J.S. Dyadic Green’s functions for integrated electronic and
optical circuits / J.S. Bagby, D.P. Nyquist // IEEE Trans. Microwave
Theory Tech. — 1987. — MTT-35 — P. 206–210.
35. Collin R.E. Field Theory of Guided Waves / R.E. Collin. — New York:
IEEE Press, 1991. — 578 p.
36. Colton D. Time harmonic electromagnetic waves in an inhomogeneous
medium / D. Colton, R. Kress // Proceedings of the Royal Society
of Edinburgh. — 1990. — V. 116A. — P. 279–293.
37. Kartchevski E.M. Green’s function expansions in dyadic root
functions for shielded layered waveguide problems obtained via
residue theory / G.W. Hanson, A.I. Nosich, E.M. Kartchevski //
Journal of Electromagnetic Waves and Applications. — 2003. —
V. 17. — № 5. — P. 759–761.
38. Eyges L. Modes of dielectric waveguides of arbitrary cross sectional
shape / L. Eyges, P. Gianino, P. Wintersteiner // J. Opt. Soc. Am. —
1979. — V. 69. — № 9. — P. 1226–1235.
39. H¨ormander L. Linear Partial Differential Operators / L. H¨orman-
der. — Berlin: Springer-Verlag, 1976. — 379 p.
40. Jablonski T.F. Complex modes in open lossless dielectric waveguides /
T.F. Jablonski // J. Opt. Soc. Am. A. — 1994. — V. 11. — № 4. —
P. 1272–1282.
41. Jablonski T.F. Analysis of dielectric guiding structures by
the iterative eigenfunction expansion method / T.F. Jablonski,
M.J. Sowinski // IEEE Trans. Microwave Theory Techniques. —
1989. — MTT-37. — P. 63–70.
42. Kress R. Linear Integral Equations / R. Kress. — New York: Springer-
Verlag, 1999. — 365 p.
Литература 129
32. Янке Е., Эмде Ф., Леш Ф. Специальные функции / Е. Янке,
Ф. Эмде, Ф. Леш. — М.: Наука, 1968. — 344 с.
33. Bagby J.S. Integral formulation for analysis of integrated dielectric
waveguides / J.S. Bagby, D.P. Nyquist, B.C. Drachman // IEEE
Trans. Microwave Theory Tech. — 1985. — MTT-29. — P. 906–915.
34. Bagby J.S. Dyadic Green’s functions for integrated electronic and
optical circuits / J.S. Bagby, D.P. Nyquist // IEEE Trans. Microwave
Theory Tech. — 1987. — MTT-35 — P. 206–210.
35. Collin R.E. Field Theory of Guided Waves / R.E. Collin. — New York:
IEEE Press, 1991. — 578 p.
36. Colton D. Time harmonic electromagnetic waves in an inhomogeneous
medium / D. Colton, R. Kress // Proceedings of the Royal Society
of Edinburgh. — 1990. — V. 116A. — P. 279–293.
37. Kartchevski E.M. Green’s function expansions in dyadic root
functions for shielded layered waveguide problems obtained via
residue theory / G.W. Hanson, A.I. Nosich, E.M. Kartchevski //
Journal of Electromagnetic Waves and Applications. — 2003. —
V. 17. — № 5. — P. 759–761.
38. Eyges L. Modes of dielectric waveguides of arbitrary cross sectional
shape / L. Eyges, P. Gianino, P. Wintersteiner // J. Opt. Soc. Am. —
1979. — V. 69. — № 9. — P. 1226–1235.
39. Hörmander L. Linear Partial Differential Operators / L. Hörman-
der. — Berlin: Springer-Verlag, 1976. — 379 p.
40. Jablonski T.F. Complex modes in open lossless dielectric waveguides /
T.F. Jablonski // J. Opt. Soc. Am. A. — 1994. — V. 11. — № 4. —
P. 1272–1282.
41. Jablonski T.F. Analysis of dielectric guiding structures by
the iterative eigenfunction expansion method / T.F. Jablonski,
M.J. Sowinski // IEEE Trans. Microwave Theory Techniques. —
1989. — MTT-37. — P. 63–70.
42. Kress R. Linear Integral Equations / R. Kress. — New York: Springer-
Verlag, 1999. — 365 p.
