Javascript must be enabled to continue!

State transfer of ultracold nS Rydberg atoms

The state transfer of nS Rydberg atoms induced by external pulsed electric field has been investigated. Cold nS Rydberg atoms are prepared by the two-photon transition and the selective field-ionization method is used to detect the Rydberg atoms and "P" state due to the state mixing. The avoided crossing of nS and (n-4) manifold is studied and the dependence of the state transfer rate on the strength of pulsed field is obtained. Experimental result is interpreted by using Stark effect of electric field and it shows consistency between experiment and calculation.

Acta Physica Sinica, Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences

Wang Yong Zhang Hao Chen Jie Wang Li-Mei Zhang Lin-Jie Li Chang-Yong Zhao Jian-Ming Jia Suo-Tang

Acta Physica Sinica

2020

Title: State transfer of ultracold nS Rydberg atoms

Description:

The state transfer of nS Rydberg atoms induced by external pulsed electric field has been investigated.

Cold nS Rydberg atoms are prepared by the two-photon transition and the selective field-ionization method is used to detect the Rydberg atoms and "P" state due to the state mixing.

The avoided crossing of nS and (n-4) manifold is studied and the dependence of the state transfer rate on the strength of pulsed field is obtained.

Experimental result is interpreted by using Stark effect of electric field and it shows consistency between experiment and calculation.

Back

Rydberg atoms are highly excited atoms with large principal quantum number n, big sizes (~n2) and long lifetimes (~n3). Rydberg atoms are very sensitive to an external field due to...

Spontaneous evolution of Cs 47D Rydberg atoms at different fine levels

The spontaneous evolution from Rydberg atoms in different fine states to plasmas is investigated. Two-photon excitation is used to excite ultracold cesium atoms from 6S1/2 to 47D3/...

Electromagnetically induced transparency of Rydberg atoms in modulated laser fields

Rydberg atoms, with large principal quantum number n, have been widely investigated in recent years due to their peculiar properties, such as big sizes, long lifetimes and strong i...

Excitation of Rydberg Molecules in Ultracold Quantum Gases

Recent experiments in our group on the excitation of Rydberg molecules in ultracold quantum gases have been reviewed. Quantum gases are a well‐suited environment to excite Rydberg ...

Observation of blackbody radiation enhanced superradiance in ultracold Rydberg gases

Abstract An ensemble of excited atoms can synchronize emission of light collectively in a process known as superradiance when its characteristic size is smaller than...

Study of Eu 4f76snl Rydberg states

The three-step two-color resonant ionization method and three-step three-color isolated-core excitation (ICE) technique are used to study the spectra of the highly excited bound st...

A Condensed Excited (Rydberg) Matter: Perspective and Applications

AbstractA condensed excited matter called Rydberg Matter (RM) have been studied experimentally for 30 years, but have not sparked widespread attention yet, unlike ordinary Rydberg ...

Rydberg energies and transition probabilities of Li I for np–ms (m ≤ 5) transitions

Abstract Background Mathematical modeling provides grounds for understanding scientific systems theoretically. It serves as a guide for experimental...

Email:
Password:

Email:

State transfer of ultracold nS Rydberg atoms

Related Results