Literatur

1

K. Pyragas: Continuous control of chaos by self-controlling feedback, Phys. Lett. A 170, 421 (1992).

2

J. E. S. Socolar, D. W. Sukow, and D. J. Gauthier: Stabilizing unstable periodic orbits in fast dynamical systems, Phys. Rev. E 50, 3245 (1994).

3

M. E. Bleich and J. E. S. Socolar: Stability of periodic orbits controlled by time-delay feedback, Phys. Lett. A 210, 87 (1996).

4

W. Just, T. Bernard, M. Ostheimer, E. Reibold, and H. Benner: Mechanism of time-delayed feedback control, Phys. Rev. Lett. 78, 203 (1997).

5

M. Rogozia, S. W. Teitsworth, H. T. Grahn, and K. H. Ploog: Relocation dynamics of domain boundaries in semiconductor superlattices, Phys. Rev. B 65, 205303 (2002).

[Eigene Publikationen zum Projektthema] [a) Originalarbeiten in rezensierten Zeitschriften]

6

M. Meixner, P. Rodin, E. Schöll, and A. Wacker: Lateral current density fronts in globally coupled bistable semiconductors with S- or Z-shaped current voltage characteristic, Eur. Phys. J. B 13, 157 (2000).

7

S. Bose, P. Rodin, and E. Schöll: Competing spatial and temporal instabilities in a globally coupled bistable semiconductor system near a codimension-two bifurcation, Phys. Rev. E 62, 1778 (2000).

8

V. Cheianov, P. Rodin, and E. Schöll: Transverse coupling in bistable resonant-tunneling structures, Phys. Rev. B 62, 9966 (2000).

9

A. Amann, A. Wacker, L. L. Bonilla, and E. Schöll: Dynamic scenarios of multi-stable switching in semiconductor superlattices, Phys. Rev. E 63, 066207 (2001).

10

W. Just, M. Bose, S. Bose, H. Engel, and E. Schöll: Spatio-temporal dynamics near a supercritical Turing-Hopf bifurcation in a two-dimensional reaction-diffusion system, Phys. Rev. E 64, 026219 (2001).

11

F. Plenge, P. Rodin, E. Schöll, and K. Krischer: Breathing current domains in globally coupled electrochemical systems: A comparison with a semiconductor model, Phys. Rev. E 64, 056229 (2001).

12

F. Elsholz, A. Wacker, E. Schöll, M. Kast, G. Strasser, and E. Gornik: Magnetotransport through semiconductor superlattices, Phys. Rev. B 63, 033312 (2001).

13

C. Pacher, C. Rauch, G. Strasser, E. Gornik, F. Elsholz, A. Wacker, G. Kießlich, and E. Schöll: Anti-reflection coating for miniband transport and Fabry-Perot resonances in GaAs/AlGaAs superlattices, Appl. Phys. Lett. 79, 1486 (2001).

14

N. Baba, A. Amann, E. Schöll, and W. Just: Giant improvement of time-delayed feedback control by spatio-temporal filtering, Phys. Rev. Lett. 89, 074101 (2002).

15

O. Beck, A. Amann, E. Schöll, J. E. S. Socolar, and W. Just: Comparison of time-delayed feedback schemes for spatio-temporal control of chaos in a reaction-diffusion system with global coupling, Phys. Rev. E 66, 016213 (2002).

16

E. Schöll, A. Amann, M. Rudolf, and J. Unkelbach: Transverse spatio-temporal instabilities in the double barrier resonant tunneling diode, Physica B 314, 113 (2002).

17

A. Wacker: Semiconductor superlattices: A model system for nonlinear transport, Phys. Rep. 357, 1 (2002).

18

A. Amann, J. Schlesner, A. Wacker, and E. Schöll: Chaotic front dynamics in semiconductor superlattices, Phys. Rev. B 65, 193313 (2002).

19

A. Amann, A. Wacker, and E. Schöll: Tripole current oscillations in superlattices, Physica B 314, 404 (2002).

20

E. Schomburg, K. Hofbeck, R. Scheuerer, M. Haeussler, K. F. Renk, A.-K. Jappsen, A. Amann, A. Wacker, E. Schöll, D. G. Pavel'ev, and Y. Koschurinov: Control of the dipole domain propagation in a GaAs/AlAs superlattice with a high-frequency field, Phys. Rev. B 65, 155320 (2002).

21

A.-K. Jappsen, A. Amann, A. Wacker, E. Schomburg, and E. Schöll: High frequency impedance of driven superlattices, J. Appl. Phys. 92, 3137 (2002).

22

R. Scheuerer, E. Schomburg, K. F. Renk, A. Wacker, and E. Schöll: Feasibility of a semiconductor superlattice oscillator based on quenched domains for the generation of sub-millimeter waves, Appl. Phys. Lett. 81, 1515 (2002).

23

G. Schwarz, E. Schöll, V. Novák, and W. Prettl: Streamer motion in Hall effect Corbino geometries, Physica E 12, 182 (2002).

24

W. Just, S. Popovich, A. Amann, N. Baba, and E. Schöll: Improvement of time-delayed feedback control by periodic modulation: analytical theory of Floquet mode control scheme, Phys. Rev. E 67, 026222 (2003).

25

J. Unkelbach, A. Amann, W. Just, and E. Schöll: Time-delay autosynchronization of the spatio-temporal dynamics in resonant tunneling diodes, Phys. Rev. E 68, 026204 (2003).

26

P. Rodin and E. Schöll: Lateral current density fronts in asymmetric double-barrier resonant-tunneling structures, J. Appl. Phys. 93, 6347 (2003).

27

P. Rodin: Theory of traveling filaments in bistable semiconductor structures, Phys. Rev. B 68 (2003).

28

A. Amann, K. Peters, U. Parlitz, A. Wacker, and E. Schöll: A hybrid model for chaotic front dynamics: From semiconductors to water tanks, Phys. Rev. Lett. 91, 066601 (2003).

29

J. Schlesner, A. Amann, N. B. Janson, W. Just, and E. Schöll: Self-stabilization of high frequency oscillations in semiconductor superlattices by time-delay autosynchronization, Phys. Rev. E (2003), in print, cond-mat/0303462.

30

J. Schlesner, A. Amann, N. B. Janson, W. Just, and E. Schöll: Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control, Semicond. Sci. Technol. (2004), in print.

[b) Bücher, Konferenzbeiträge und sonstige Publikationen]

31

E. Schöll: Nonequilibrium Phase Transitions in Semiconductors (Springer, Berlin, 1987).

32

M. P. Shaw, V. V. Mitin, E. Schöll, and H. L. Grubin: The Physics of Instabilities in Solid State Electron Devices (Plenum Press, New York, 1992).

33

E. Schöll (Editor): Theory of Transport Properties of Semiconductor Nanostructures, vol. 4 of Electronic Materials Series (Chapman and Hall, London, 1998).

34

E. Schöll: Nonlinear spatio-temporal dynamics and chaos in semiconductors (Cambridge University Press, Cambridge, 2001), Nonlinear Science Series, Vol. 10.

35

E. Schöll: Field domains and current filaments, in Survey of semiconductor physics Vol. II, edited by K. W. Böer (Plenum, New York, 2002), pp. 737-804, 2nd ed.

36

A. Amann, A. Wacker, L. L. Bonilla, and E. Schöll: Field domains in semiconductor superlattices: Dynamic scenarios of multistable switching, in Proc. 25th International Conference on the Physics of Semiconductors, edited by N. Miura and T. Ando (Springer, Berlin, 2001), p. 801.

37

J. Unkelbach, A. Amann, P. Rodin, and E. Schöll: From bistability to spatio-temporal chaos in a resonant-tunneling diode, in Proceedings of the $10^{th}$ International Symposium on Nanostructures: Physics and Technology (Ioffe Institute, St. Petersburg, 2002), p. 371.

38

A.-K. Jappsen, A. Amann, A. Wacker, E. Schomburg, and E. Schöll: Synchronization of dipole domains in GHz driven superlattices, in Proceedings of the $10^{th}$ International Symposium on Nanostructures: Physics and Technology (Ioffe Institute, St. Petersburg, 2002), p. 245.

39

A. Amann, J. Schlesner, A. Wacker, and E. Schöll: Self-generated chaotic dynamics of field domains in superlattices, in Proc. 26th International Conference on the Physics of Semiconductors (ICPS-26), Edinburgh 2002, edited by J. H. Davies and A. R. Long (2003).

40

W. Just, H. Benner, and E. Schöll: Control of chaos by time-delayed feedback: a survey of theoretical and experimental aspects, in Advances in Solid State Phyics, edited by B. Kramer (Springer, Berlin, 2003).

41

E. Schöll: Nonlinear dynamics and pattern formation in semiconductor systems, in Collective Dynamics of Nonlinear and Disordered Systems, edited by W. Häussler, W. Just, and G. Radons (Springer, Berlin, 2003).

42

E. Schöll, in Encyclopedia of Nonlinear Science, edited by A. Scott (Fitzroy Dearborn, London, 2004).

Längerfristige Gäste

Dr. Pavel Rodin

vom Ioffe Physico-Technical Institute der Russian Academy of Sciences, St. Petersburg, Russland (Juli 2001 - August 2003, Alexander-von-Humboldt-Stipendiat)
Wissenschaftliche Zusammenarbeit über komplexe raum-zeitliche Dynamik in Reaktions-Diffusionssystemen zur Beschreibung von Halbleiternanostrukturen und resonanten Tunneldioden mit globaler Kopplung.

Dr. Wolfram Just

vom Queen Mary College, London (September 2001 Oktober/November 2002, Mai + Juli/August 2003)
Wissenschaftliche Zusammenarbeit über Chaoskontrolle durch zeitverzögerte Autosynchronisation in global gekoppelten Reaktions-Diffusions-Systemen.

Dr. Natalia Janson

von Lancaster University und Loughborough University, GB (Oktober/November 2002, Mai + Juli/August 2003)
Wissenschaftliche Zusammenarbeit über zeitverzögerte Rückkopplungskontrolle von deterministischem Chaos in Halbleiterübergittern sowie von rauschinduzierten Oszillationen.

Dr. Alexander Balanov

von der Saratov State University, Russland (Mai + Juli/August + Oktober/November 2003)
Wissenschaftliche Zusammenarbeit über zeitverzögerte Rückkopplungskontrolle von rauschinduzierten Oszillationen.