УДК: 535.2

How the unequal spacing of the spectrum of a three-level system affects the formation of a stimulated photon echo

Nefediev, L.A., Nizamova É.I., Sakhbieva, A.R.

Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Нефедьев Л.А., Низамова Э.И., Сахбиева А.Р. Влияние неэквидистантности спектра трехуровневой системы на формирование стимулированного фотонного эха // Оптический журнал. 2013. Т. 80. № 10. С. 9–13.

Nefed’ev, L. A., Nizamova, É. I., Sakhbieva, A. R. How the unequal spacing of the spectrum of a three-level system affects the formation of a stimulated photon echo [in Russian] // Opticheskii Zhurnal. 2013. V. 80. № 10. P. 9–13.

For citation (Journal of Optical Technology):

L. A. Nefed’ev, É. I. Nizamova, and A. R. Sakhbieva, "How the unequal spacing of the spectrum of a three-level system affects the formation of a stimulated photon echo," Journal of Optical Technology. 80(10), 590-593 (2013). https://doi.org/10.1364/JOT.80.000590

Abstract:

This paper discusses the correlation of inhomogeneous broadening at various frequency transitions in three-level systems and how it affects the intensity of the stimulated-photon-echo response. It is shown that the correlation coefficient of inhomogeneous broadening at two different energy transitions and the response intensity of the stimulated photon echo depends on the random interaction parameter m of an optical electron with the local field, which in turn depends on the unequal-spacing parameter of the spectrum of the system.

Keywords:

stimulated photonic echo, correlation coefficient, heterogeneous broadening, non-equidistance of the spectrum

References:

1. V. V. Samartsev, V. A. Zuı˘kov, and L. A. Nefed’ev, “Optical memory, based on long-lived photon echo,” Zh. Prikl. Spektrosk. 59, 395 (1993).
2. A. A. Kalachev and V. V. Samartsev, Coherent Phenomena in Optics (Kazan State University, Kazan, 2003), p. 280.
3. L. A. Nefed’ev and I. A. Rusanova, “Information processes in optical echo holography,” Opt. Spektrosk. 90, 1000 (2001) [Opt. Spectrosc. 90, 906 (2001)].
4. L. A. Nefediev and I. A. Rusanova, “Copying quantum information in a three-level medium with a phase memory,” Laser Phys. 12, 581 (2002).
5. L. A. Nefed’ev and V. V. Samartsev, “Color echo holography,” Opt. Spektrosk. 62, 701 (1987) [Opt. Spectrosc. (USSR) 62, 416 (1987)].
6. L. A. Nefediev and V. V. Samartsev, “The dynamic echo-hologram transformation in three-level systems,” Phys. Status Solidi A 88, 631 (1985).
7. P. M. Saari and T. B. Tamm, “Correlation of the inhomogeneous structure of the spectra of various electronic transitions of impurity molecules in solid
matrices,” Izv. Akad. Nauk SS SR. Ser. Fiz. No. 11, 2321 (1975).
8. F. R. Gantmakher, Matrix Theory (Nauka, Moscow, 1967), p. 575.
9. L. A. Nefed’ev and G. I. Khakimzyanova (Garnaeva), “The correlation of inhomogeneous broadening and the efficiency of data locking in optical echo processors,” Opt. Spektrosk. 98, 41 (2005) [Opt. Spectrosc. 98, 35 (2005)].
10. F. Reichert, F. Moglia, D.-T. Marzahl, P. Metz, M. Fechner, N. O. Hansen, and G. Huber, “Diode-pumped laser operation and spectroscopy of Pr3+ :LaF 3 ,” Opt. Express 20, 20387 (2012).
11. L. A. Nefed’ev, É. I. Nizamova, and S. V. Taktaeva, “The effect of uncor relatedness of inhomogeneous broadening on the formation of transient optical processes in multilevel systems,” Opt. Spektrosk. 113, 156 (2012) [Opt. Spectrosc. 113, 135 (2012)].