Helle atomare Solitonen - KOPS - Universität Konstanz
Helle atomare Solitonen - KOPS - Universität Konstanz
Helle atomare Solitonen - KOPS - Universität Konstanz
Erfolgreiche ePaper selbst erstellen
Machen Sie aus Ihren PDF Publikationen ein blätterbares Flipbook mit unserer einzigartigen Google optimierten e-Paper Software.
LITERATURVERZEICHNIS<br />
IX<br />
[117] C.M. de Sterke, D.G. Salinas, and J.E. Sipe. Coupled-mode theory for light propagation<br />
through deep nonlinear gratings. Physical Review E, 54(2):1969, August<br />
1996.<br />
[118] A. Trombettoni and A. Smerzi. Discrete solitons and breathers with dilute Bose-<br />
Einstein condensates. Physical Review Letters, 86(11):2353–56, March 2001.<br />
[119] A. Messiah. Quantenmechanik, volume 2. de Gruyter, Berlin, third edition, 1990.<br />
[120] M. Ben Dahan, E. Peik, J. Reichel, Y. Castin, and C. Salomon. Bloch oscillations<br />
of atoms in an optical potential. Physical Review Letters, 76(24):4508–11, June<br />
1996.<br />
[121] B. Wu and Q. Niu. Nonlinear Landau-Zener tunneling. Physical Review A,<br />
61(2):023402, 2000.<br />
[122] B. Wu and Q. Nu. Superfluidity of Bose-Einstein condensate in an optical lattice:<br />
Landau-Zener tunnelling and dynamical instability. New Journal of Physics,<br />
5:104,1–24, 2003.<br />
[123] D. Diakonov, L.M. Jensen, C.J. Pethick, and H. Smith. Loop structure of the<br />
lowest Bloch band for a Bose-Einstein condensate. Physical Review A, 66:013604,<br />
2002.<br />
[124] D. Choi and B. Wu. To detect the looped bloch bands of Bose-Einstein condensates<br />
in optical lattices. Physics Letters A, 318:558–63, 2003.<br />
[125] G. Agrawal. Nonlinear fiber optics. Academic Press, San Diego, 2 edition, 1995.<br />
[126] J.W. Fleischer, T. Carmon, M. Segev, N.K. Efremidis, and D.N. Christodoulides.<br />
Observation of discrete solitons in optically induced real time waveguide arrays.<br />
Physical Review Letters, 90(2):023902, 2003.<br />
[127] J.W. Fleischer, M. Segev, N.K. Efremidis, and D.N. Christodoulides. Observation<br />
of two-dimensional discrete solitons in optically induced nonlinear photonic<br />
lattices. Nature, 422:147, 2003.<br />
[128] Y. Kivshar and B. Luther-Davies. Dark optical solitons: physics and applications.<br />
Physics Reports, pages 81–197, 1998.<br />
[129] S. Burger, K. Bongs, S. Dettmer, W. Ertmer, K. Sengstock, A. Sanpera, G.V. Shlyapnikov,<br />
and M. Lewenstein. Dark solitons in Bose-Einstein condensates. Physical<br />
Review Letters, 83(25):5198–5201, December 1999.<br />
[130] J. Denschlag, Simsarian. J.E., D.L. Feder, C.W. Clark, L.A. Collins, J. Cubizolles,<br />
L. Deng, E.W. Hagley, K. Helmerson, W.P. Reinhardt, S.L. Rolston, B.I. Schneider,<br />
and W.D. Phillips. Generating solitons by phase engineering of a Bose-Einstein<br />
condensate. Science, 287:97–100, January 2000.<br />
[131] B.P. Anderson, P.C. Haljan, C.A. Regal, D.L. Feder, L.A. Collins, C.W. Clark, and<br />
E.A. Cornell. Watching dark solitons decay into vortex rings in a Bose-Einstein<br />
condensate. Physical Review Letters, 86(14):2926–29, April 2001.