Subject Areas : Journal of Optoelectronical Nanostructures
Zahra Ghaedi 1 , Mehdi Hosseini 2 , Farrokh Sarreshtedari 3
1 - Department of Physics, Shiraz University of Technology, Shiraz, Iran
2 - Department of Physics, Shiraz University of Technology, Shiraz, Iran.
3 - Magnetic Resonance Research Laboratory, Department of Physics, University of
Tehran, Tehran, Iran.
Keywords:
Abstract :
[1] V. Prasad, B. Dahiya, K. Yamashita. Ionization of the H atom in ultrashort chirped
laser pulses, Phys. Scripta. 82(5)(2010) 055302.
[2] V. S. Malinovsky, J. L. Krause. Efficiency and robustness of coherent population
transfer with intense, chirped laser pulses. Phys Rev A. 63 (2001) 043415.
[3] X. Z. Zhang, Z. Z. Ren, G. R. Jia, X. T. Guo, W. G. Gong. Numerical exploration
of population transfer of Rydberg-atom by single frequency chirped laser pulse.
Chinese Phys, (12)(2008) B 17- 4476.
[4] Ch. Sarkar, B. Rangana, S. S. Bhattacharyya, S. Samir. Control of population
transfer in a multilevel Li2 molecule by stimulated hyper-Raman nonadiabatic
passage with chirped laser pulses. Phys Rev A. 78(2)(2008) 023406.
[5] S. Ibáñez, A. Peralta Conde, D. Guéry-Odelin, J. G. Muga. Interaction of strongly
chirped pulses with two-level atoms. Phys Rev A. 84(1)(2011) 013428.
[6] V. A. Astapenko, M. S. Romadanovskii. Excitation of a two-level system by a chirped
laser pulse. Laser phys, (5)(2009) 969-973.
[7] L. D. Landau. On the theory of transfer of energy at collisions II. Phys. Z.
Sowjetunion 1, (1932) 2-46.
[8] E. C. G. Stuckelberg. Theorie der unelastischen stosse zwischen atomen. Helv. Phys.
Acta 5,(1932) 369-422.
[9] E. Majorana. Orientated atoms in a variable magnetic field. Nuovo Cimento 9,
(1932), 43-50.
[10] H. Nakamura. Semiclassical treatment of nonadiabatic transitions: Multilevel curve
crossing and nonadiabatic tunneling problems. J chem phys. (7)(1987) 4031-4041.
[11] S. V. Prants. Nonadiabatic quantum chaos in atom optics. Commun Non Science
Nume Sim. (7)(2012) 2713-2721.
[12] H. J. Metcalf, P. van der Straten. Laser Cooling and Trapping. Springer-Verlag,
New York Inc. (1999).
[13] C. Wieman. Collected Papers of Carl Wieman. World Scientific Publishing
Company Pvt. Ltd. Singapore. (2008).
[14] C. Cohen-Tannoudji. Atoms in Electromagnetic Field. 2nd edn. World Scientific
Series on Atomic, Molecular and Optical Physics. 3(2004).
[15] C. Zener. Non-Adiabatic Crossing of Energy Levels. Proc. R. Soc. London A, 137
(09/1932) 696-702.
[16] S. Ashhab. Landau-Zener transitions in a two-level system coupled to a finite
temperature harmonic oscillator. Phys Rev A. 90(6)(2014) 062120.
[17] F. Sarreshtedari, M. Hosseini. Tunable Landau-Zener transitions using continuous
and chirped-pulse-laser couplings. Phys Rev A 95. (3)(2017) 033834.
[18] W. Limei, H. Zhang, L. Zhang, G. Raithel, J. Zhao, S. Jia. Atom-interferometric
measurement of Starklevel splittings. Physica Rev A. 92(3)(2015) 033619.
[19] D. Van, C. S. E. Atreju Tauschinsky, HB van Linden Van Den Heuvell.
Observation of Stückelberg oscillations in dipole-dipole interactions. Phys RevA.
80(6)(2009)063407.
[20] M. A. Nielsen, I. L. Chuang, Quantum Computation and Quantum Information,
Cambridge University Press, 2000.
[21] D. Bouwmeester, A. Ekert, A. Zeilinger. The Physics of Quantum Information,
Springer, Berlin Heidelberg New York, 2000.
[22] M. Anwar, M. Faisal, A. Mushtaq. An experimental investigation of the trapdynamics of a cesium magneto-optical trap at high laser intensities. Eur Phys J D.
(12) (2013) 1-10.
[23] A. Bauch. Caesium atomic clocks: function, performance and applications. Meas
Sci Technolog. 14(8)(2003) 1159.
[24] B. Patton, E. Zhivun, D. C. Hovde, D. Budker. All-optical vector atomic
magnetometer. Phys Rev Lett. 113(1)(2014) 013001.
[25] D. A. Steck, Cesium D line data, Theoretical Division, http://steck.us/alkalidata,
(2003).
[26] P. Törmä, L. B. William. Strong coupling between surface plasmon polaritons and
emitters. Reports on Progress in Physics. 78(1)(2015) 013901.