EFFECT OF EXTERNAL PERIODIC FORCE ON THE DYNAMICS OF THECHARGE DOMAINS IN SEMICONDUCTOR SUPERLATTICE
Cite this article as:
Moskalenko О. I., Koronovskii A. A., Hramov A. E., Alekseev К. N., Balanov А. G. EFFECT OF EXTERNAL PERIODIC FORCE ON THE DYNAMICS OF THECHARGE DOMAINS IN SEMICONDUCTOR SUPERLATTICE. Izvestiya VUZ. Applied Nonlinear Dynamics, 2011, vol. 19, iss. 3, pp. 143-153. DOI: https://doi.org/10.18500/0869-6632-2011-19-3-143-153
Periodic external signal effect on the collective dynamics of charge in semiconductor superlattice is studied. It is shown, that periodicallyoscillating external electrical field can synchronize the transport of domains of the high density of charge as well as oscillations of electrical current flowing through the superlattice. Synchronization tongues are occurred in the control parameter «frequency of electrical field – electrical field amplitude» plane, and the width of such tongues does not almost depend on the frequency of external field and proper frequency of the domain follow ratio. Synchronization is shown to be accompanied by the sharp increase of absorbtion on the frequency of external field.
1. Wacker R. Semiconductor superlattices: a model system for nonlinear transport // Physics Reports. 2002. Vol. 357. P. 1.
2. Келдыш Л.В. Свойства полупроводниковых сверхрешеток // Физика твердого тела. 1962. Т. 4. C. 2265.
3. Esaki L., Tsu R. Superlattices and negative differential conductivity in semiconductors // IBM Journal of Research and Development. 1970. Vol. 14, No 1. P. 61.
4. Schomburg E., Hofbeck K., Scheuerer R. et al. Control of the dipole domain propagation in a GaAs/AlAs superlattice with a high-frequency field // Phys. Rev. B. 2002. Vol. 65. P. 155320.
5. Jappsen A.-K., Wacker A., Scholl E., Schomburg E. ̈ High-frequency impedance of driven superlattices // J. Appl. Phys. 2002. Vol. 92. P. 3137.
6. Hyart T., Alekseev K., Thuneberg E. Bloch gain in dc-ac-driven semiconductor superlattices in the absence of electric domains // Physical Review B (Condensed Matter and Materials Physics). 2008. Vol. 77, No 16. P. 165330.
7. Hyart T., Alexeeva N.V. Mattas J., Alekseev K. Terahertz bloch oscillator with a modulated bias // Phys. Rev. Lett. 2009. Vol. 102. P. 140405.
8. Блехман И.И. Синхронизация в природе и технике. М.: Наука, 1981.
9. Landa P.S., Rosenblum M.G. Synchronization and chaotization of oscillations in coupled self–oscillating systems // Appl. Mech. Rev. 1993. Vol. 46, No 7. P. 414.
10. Анищенко В.С., Астахов В.В., Вадивасова Т.Е., и др. Нелинейные эффекты в хаотических и стохастических системах М.; Ижевск: Институт компьютерных исследований, 2003.
11. Balanov A.G., Janson N.B., Postnov D.E., Sosnovtseva O.V. Synchronization: from simple to complex. Springer, 2009.
12. Glass L. Synchronization and rhythmic processes in physiology // Nature (London). 2001. Vol. 410. P. 277.
13. Anishchenko V.S., Balanov A.G., Janson N.B. et al. Entrainment between heart rate and weak nonlinear forcing // Int. J. Bifurcation and Chaos. 2000. Vol. 10, No 10. P. 2339.
14. Parmananda P. Generalized synchronization of spatiotemporal chemical chaos // Phys. Rev. E. 1997. Vol. 56. P. 1595.
15. Blasiusc B., Stone L. Chaos and phase synchronisation in ecological systems // Int. J. Bifurcation and Chaos. 2000. Vol. 10, No 10. P. 2361.
16. Palus M., Kurths J., Schwarz U. et al. Is the solar activity cycle synchronized with the solar inertial motion? // Int. J. Bifurcation and Chaos. 2000. Vol. 10, No 11. P. 2519.
17. Murali K., Lakshmanan M. Transmission of signals by synchronization in a chaotic van der Pol–Duffing oscillator // Phys. Rev. E. 1993. Vol. 48, No 3. R1624.
18. Дмитриев А.С., Панас А.И. Динамический хаос: новые носители информации для систем связи. М.: Физматлит, 2002.
19. Anishchenko V.S., Pavlov A.N. Global reconstruction in application to multichannel communication // Phys. Rev. E. 1998. Vol. 57. P. 2455.
20. Pyragas K. Synchronisation of coupled time-delay systems: analytical estimations // Phys. Rev. E. 1998. Vol. 58, No 3. P. 3067–3071.
21. Cuomo K., Oppenheim A.V. Circuit implementation of synchronized chaos with applications to communications // Phys. Rev. Lett. 1993. Vol. 71, No 1. P. 65.
22. Короновский А.А., Москаленко О.И., Храмов А.Е. О применении хаотической синхронизации для скрытой передачи информации // Успехи физических наук. 2009. T. 179, No 12. C. 1281.
23. Трубецков Д.И., Короновский А.А., Храмов А.Е. Синхронизация распределенных автоколебательных систем электронно-волновой природы с обратной волной // Изв. вузов. Радиофизика. 2004. T. XLVII, No 5–6. C. 343.
24. Greenaway M.T., Balanov A.G., Scholl E., Fromhold T.M. ̈ Controlling and enhancing terahertz collective electron dynamics in superlattices by chaos-assisted miniband transport // Phys. Rev. B. 2009. Vol. 80. P. 205318.
25. Fromhold T.M., Patane A., Bujkiewicz S. et al. Chaotic electron diffusion through stochastic webs enhances current flow in superlattices // Nature. 2004. April. Vol. 428. P. 726.
26. Balanov A. G., Fowler D., Patane A. et al. Bifurcations and chaos in semiconductor superlattices with a tilted magnetic field // Phys. Rev. E. 2008. Vol. 77, No 2. P. 026209.
27. Баланов А.Г., Короновский А.А., Сельский А.О., Храмов А.Е. Влияние температуры на дрейфовую скорость электронов в полупроводниковой сверхрешеткев продольном электрическом и наклонном магнитном полях // Известия вузов. Прикладная нелинейная динамика. 2010. T. 18, No 3. C. 128.
28. Игнатов А.А., Шашкин В.И. Блоховские осцилляции электронов и неустойчивость волн пространственного заряда в полупроводниковых сверхрешетках // ЖЭТФ. 1987. T. 93. C. 935.
29. Басс Ф.Г., Зорченко В.В., Шашора В.И. Штрак-циклотронный резонанс в полупроводниках со сверхрешеткой // Письма в ЖЭТФ. 1980. T. 31, No 6. C. 345.
30. Басс Ф.Г., Зорченко В.В., Шашора В.И. К теории гальваномагнитных и высокочастотных явлений в полупроводниках со сверхрешеткой // Физика и техника полупроводников. 1981. T. 15. C. 459.
31. Шик А.Я. Сверхрешетки–периодические полупроводниковые структуры // Физика и техника полупроводников. 1974. T. 8. C. 1841.
BibTeX
author = {О. I. Moskalenko and A. A. Koronovskii and A. E. Hramov and К. N. Alekseev and А. G. Balanov },
title = {EFFECT OF EXTERNAL PERIODIC FORCE ON THE DYNAMICS OF THECHARGE DOMAINS IN SEMICONDUCTOR SUPERLATTICE},
year = {2011},
journal = {Izvestiya VUZ. Applied Nonlinear Dynamics},
volume = {19},number = {3},
url = {https://old-andjournal.sgu.ru/en/articles/effect-of-external-periodic-force-on-the-dynamics-of-thecharge-domains-in-semiconductor},
address = {Саратов},
language = {russian},
doi = {10.18500/0869-6632-2011-19-3-143-153},pages = {143--153},issn = {0869-6632},
keywords = {Semiconductor superlattice,charge domains,synchronization.},
abstract = {Periodic external signal effect on the collective dynamics of charge in semiconductor superlattice is studied. It is shown, that periodicallyoscillating external electrical field can synchronize the transport of domains of the high density of charge as well as oscillations of electrical current flowing through the superlattice. Synchronization tongues are occurred in the control parameter «frequency of electrical field – electrical field amplitude» plane, and the width of such tongues does not almost depend on the frequency of external field and proper frequency of the domain follow ratio. Synchronization is shown to be accompanied by the sharp increase of absorbtion on the frequency of external field. }}