Author:
Bao Shanxia,Zhang Hao,Zhang Linjie,Xiao Liantuan,Jia Suotang
Abstract
AbstractTransition strengths between states are fundamental physical properties of atomic spectra. The differences in fine structure splitting of certain states are mainly attributed to the angular momentum parts of transition dipole matrix elements. These can be calculated by integrating the wave-functions theoretically and can be accessed by selecting corresponding polarizations of the exciting lasers experimentally. We measured the transition strengths ratios of nD$$_{5/2}$$
5
/
2
/nD$$_{3/2}$$
3
/
2
via Rydberg electromagnetically induced transparency (EIT) by changing the powers and polarizations of probing and coupling lasers in a room temperature cesium vapor cell. The variation of the ratios on the principal quantum number n which ranges from 40 to 62 is also investigated. Theoretical and experimental results agreed with each other.
Funder
Technological Innovation Program of Higher Education Institutions in Shanxi Province
National Key R&D Program of China
National Natural Science Foundation of China
Innovation Program for Quantum Science and Technology
Bairen Project of Shanxi Province, China
Science and Technology on Electronic Information Control Laboratory Fund
Fund for Shanxi ‘1331 Project’ Key Subjects Construction
Publisher
Springer Science and Business Media LLC