Polarization phenomena in coherent excitation of atomic systems: an overview of results

The article gives an overview of the main theoretical and experimental studies of the phenomena caused by the formation of coherent states – coherent population trapping, electromagnetically induced transparency, and laser generation without inversion.

1. Alzetta G., Moi L., Orriols G. Nonabsorbtion hyperfine resonance in sodium vapor irradiated by a Multimode dye-laser. Novo. Chimento, 1979, 52(2), P. 209–217.

2. Alzetta G., Gozzini A., Moi L., Orriols G. An experimental-method for the observation of Rf transitions and laser beat resonances in oriented Na vapor. Novo. Chimento, 1976, 36, P. 5.

3. Agapiev B.D., Gorny I.B., Matisov B.G., Rozhdestvensky Yu.V. Coherent population trapping in quantum systems. UFN, 1993, 183(9), P. 1–36.

4. Park Song Jong, Cho Hyuck, Kwon Taeg Yong, Lee Ho Seong. Transient coherence oscillation induced by a deturned Raman field in a rubidium Λ-system. Phys. Rev. A, 2004, 69, P. 023806.

5. Zhang G.P. Hidden identity in a generic Λ-system application to coherent population trapping. J. Phys. B, 2013, 46, P. 035504.

6. Renzoni F., Maichen W., Windholz L., Arimondo E. Coherent population trapping with losses observed on the Hanle effect of the D1 sodium line. Phys. Rev. A, 1997, 55, P. 3710–3718.

7. Renzoni F., Arimondo E. Population-loss-ed narrowing of the dark resonance. Phys. Rev. A, 1998, 58(6), P. 4717–4722.

8. Akhmedzhanov R., SnplaceZlensky SnI., Kuznetsova E. Magnetic field diagnostics of plasma based on coherent population trapping: theory and experiment. Phys. Rev. E, 2004, 69, P. 036409.

9. Margalit L., Rosenbluh M., Wilson-Condon A.D. Coherence-population-trapping transients indused by the magnetic field. Phys. Rev. A, 2012, 52, P. 063809.

10. Kosachev D., Matisov B.G., Rozhdestvensky Yu.V. The coherent phenomena in multiplet systems with closed interaction contour. J. Phys. B, 1992, 25, P. 2473–2488.

11. Kosachev D., Matisov B.G., Rozhdestvensky Yu.V. Coherent population trepping: sensitivity of an atomic system to the relative phase of exciting fields. Opt. Commun, 1991, 85, P. 209–212.

12. Maichen W., Renzoni F., SnplaceMazets SnI., Korsunsky E., Windholz L. Transient coherent population trepping in a closed loop unteraction scheme. Phys. Rev. A, 1996, 53(5), P. 3444–3453.

13. Stenholm S. Fundamentals of laser spectroscopy. Nauka, CityplaceMoscow, 1986, 280 p.

14. Kai-Shue-Lam. Coherent laser excitation of 137Ba and 138Ba. Phys. Rev. A, 1992, 45(5), P. 3084–3092.

15. Petrashen A.G., Sytenko N.V. Polarization phenomena during coherent excitation in the presence of a strong magnetic field. Nanosystems: physics, chemistry, mathematics, 2012, 3(5), P. 62–69.

16. Karagodova T.Ya. The influence of the orientation and strength of a magnetic field on the coherent population trapping in the Λ-system. Optics and Spectroscopy, 2002, 93(2), P. 194–197.

17. Lindberg M., Binder R. Dark states in coherent semiconductor spectroscopy. Phys. Rev. Lett. A 45, 1995, 75(7), P. 1403–1406.

18. Boller K-J., Imamoglu A., Harris S.E. Observation of electromagnetically induced transparency. Phys. Rev. Lett., 1991, 66(20), P. 2593–2596.

19. Fleischhauer M. Electromagnetically induced transparency: Optics in coherent media. Rev. Mod. Phys., 2005, 77, P. 633–673.

20. Yong-qing Li, Xiao Min Electromagnetically induced transparency in a three-level Λ-type system in rubidium atoms. Phys. Rev. A, 1995, 53(4), P. 2703–2706.

21. Korsunsky E.A., Leinfellner N., Hass A., Baluschev S., Windholz L. Phase-dependent electromagnetically induced transparency. Phys. Rev. A, 1999, 59(3), P. 2303–2305.

22. Hong Yuan Ling, Yong Oing Li, Min Xiao Coherent population trapping and electromagnetically induced transparency in multi-zeemansublevel atoms. Phys. Rev. A, 1996, 53(2), P. 1014–1026.

23. Valente D., Failache H., Lezmana A. Conparative study of the transient evolution of Hanle electromagnetically induced transparency and absorption resonance. Phys. Rev. A, 2002, 53(2), P. 023814.

24. Akulshin A.M., CityplaceBarreiro S., Lezama A. Electromagnetically induced absorption and transparency due to the resonant excitation of quasidegenerate levels of Rbvapor. Phys. Rev. A, 1998, 57(4), P. 2996–3002.

25. Lezama A., CityplaceBarreiro S., Akulshin A.M. Electromagnetically induced absorption. Phys. Rev. A, 1999, 59(6), P. 4732-4735.

26. Nicolic S.N., Radonjic M., Krmpot A.J., CityplaceLucic StateN.M., Zlatkovik B.V. Effects of laser beam profile on Zeeman electromagnetically induced transparency in the Rb buffer gas cell. J. Phys. B: At. Mol. Opt. Phys., 2013, 46, P. 075501.

27. Bhattacharyya D., Ghosh A., Bandyopadhyay A., Saha S., De S. Observation of electromagnetically induced transparency in six-level Rb atoms and theoretical stimulation of the observed spectra. J. Phys. B, 2015, 48, P. 175503.

28. Field J.E., Hahn K.H., Harris S.E. Observation of electromagnetically induced transparency in collisionally broadened lead vapor. Phys. Rev. Lett., 1991, 67(22), P. 3062–3065.

29. Yang Zhao, Cunckal Wu, Byoung-Seung Ham, Kim M.K., Microwave induced transparency in Ruby. Phys. Rev. Lett., 1997, 79(4), P. 641–644.

30. Kocharovskaya O.A., Khanin Y.I. Coherent amplification of an ultrashort pulse in a three-level system without population inversion. Letters to ZhETF, 1988, 48, P. 581–583.

31. Harris S.E. Laser without inversion: interference of lifetime broaded resonances. Phys. Rev. Lett., 1989, 62(9), P. 1033–1036.

32. Scully M.O., Zubairi M.S. Quantum optics. Fizmatlit, placeCityMoscow, 2003, 510 p.

33. Nottelman A., Peters S., Lange W. Inversionless amplification of picosecond pulses due to Zeeman coherence. Phys. Rev. Lett., 1993, 70(12), P. 1783–1786.

34. Imamoglu A., Harris S. Lasers without inversion: interference of dressed life-time broadened state. Opt. Lett., 1989, 14(24), P. 1033–1036.

35. Agarwal G.S. Inhibition of spontaneous emission noise in lasers without inversion. Phys. Rev. Lett., 1991, 67(8), P. 980982.

36. Gheri K.M., Walls D.F. Sub-Shot-Noise laser without inversion. Phys. Rev. Lett., 1992, 68(23), P. 3428–3431.

37. Zibrov A.S., Lukin M.D., Niconov D.E., Holiberg L.,Scully M.O., Velichansky V.L., Robinson H.G. Experimental demonstration of laser oscillation without population inversion via quantum interference in Rb. Phys. Rev. Lett., 1995, 75(8), P. 1499–1501.

38. Pandanabandu G.G., Welch G.R., Shubin I.N., Fry E.S., Nikonov D.E., Lukin M.D., Scully M.O. Laser oscillation without population inversion in sodium atomic beam. Phys. Rev. Lett., 1996, 76(12), P. 2053–2056.

39. Petrashen A.G., Sytenko N.V. Laser generation without inversion on the fine levels of the helium atom. Nanosystems: physics, chemistry, mathematics, 2016, 7(2), P. 384–393.

40. Doronin I.V, Zyablovsky A.A., Andrianov E.S., Pukhov A.A., Vinogradov A.P. Lasing without inversion due to parametric instability of the laser near the exceptional point. Phys. Rev. A, 2019, 100, P. 021801.

41. Lytova M., Morales F., Haessler S., Smirnova O., Spanner M., Ivanov M. Rotational quantum beat lasing without inversion. Optica, Optical Society of placecountry-regionAmerica - OSA Publishing, 2020, 7(6), P. 586–592.