Controlling Rydberg excitation process with shaped intense ultrashort laser pulses

doi:10.1088/1674-1056/28/8/083202

Abstract We perform a theoretical investigation on the control over the atomic excitation of Rydberg states with shaped intense ultrashort laser pulses. By numerically solving the time-dependent Schrödinger equation (TDSE), we systematically study the dependence of the population of the Rydberg states on the π phase step position in the frequency spectra of the laser pulse for different intensities, central wavelengths and pulse durations. Our results show that the Rydberg excitation process can be effectively modulated using shaped intense laser pulses with the laser intensity as high as 1×10¹⁴ W/cm². Our work also have benefit to the future investigation to find out the dominant mechanism behind the excitation of Rydberg states in strong laser fields.

Keywords: shaped laser pulse Rydberg states excitation intense field

Received: 26 March 2019
Revised: 25 May 2019
Accepted manuscript online:

PACS:	32.80.Rm	(Multiphoton ionization and excitation to highly excited states)
	32.80.Fb	(Photoionization of atoms and ions)
	32.80.Qk	(Coherent control of atomic interactions with photons)

Fund: Project supported by the National Natural Science Foundation of China (Grant No. 11874246).

Corresponding Authors: Xiao-Lei Hao
E-mail: xlhao@sxu.edu

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Xiao-Yun Zhao(赵晓云), Chun-Cheng Wang(王春成), Shi-Lin Hu(胡师林), Wei-Dong Li(李卫东), Jing Chen(陈京), Xiao-Lei Hao(郝小雷) Controlling Rydberg excitation process with shaped intense ultrashort laser pulses 2019 Chin. Phys. B 28 083202

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Controlling Rydberg excitation process with shaped intense ultrashort laser pulses

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