Rubidium/Cesium/Potassium optical one-Dimensional nanometric-thin cells applications in Atomic Spectroscopy

Speaker
David Sarkisyan,Institute for Physical Research, NAS of Armenia, Ashtarak-2, 0203, Armenia
Date
18/06/2014 - 15:00Add to Calendar 2014-06-18 15:00:00 2014-06-18 15:00:00 Rubidium/Cesium/Potassium optical one-Dimensional nanometric-thin cells applications in Atomic Spectroscopy The implementation of recently developed technique based on narrowband laser diodes, strong permanent magnets and micro-and nano- thin optical cells make studies of the atomic transitions behavior in an external strong magnetic field  simple and robust [1,2].             Particularly, the magnetic field-induced giant modification of probabilities for seven components of 6S1/2, Fg = 3 → 6P3/2, Fe = 5 atomic transition of the Cs D2 line, forbidden by selection rules (at zero magnetic field), is observed experimentally for the first time. The applied theoretical model describes very well the experimental curves [3].             So called Hyperfine Paschen Back (HPB) regime has been demonstrated for the Potassium atoms (for the first time) in the presence of strong magnetic field. Important and striking peculiarities of HPB regime for Potassium atoms observed with the help micro-and nano- thin optical cells will be presented.   References [1] A.Sargsyan,A.Tonoyan,R.Mirzoyan,D.Sarkisyan, A.Wojciechowski,W.Gawlik, Optics Letters, 39, 2270 (2014). [2] A. Sargsyan, G. Hakhumyan, R. Mirzoyan, D.Sarkisyan, JETP Letters 98, 441(2013). [3] A Sargsyan, A Tonoyan, G Hakhumyan, A Papoyan, E Mariotti, D. Sarkisyan, Laser Physics Letters, 11  , 055701 (2014).   seminar room on the 9th floor of the Nanobuilding Department of Physics physics.dept@mail.biu.ac.il Asia/Jerusalem public
Place
seminar room on the 9th floor of the Nanobuilding
Abstract

The implementation of recently developed technique based on narrowband laser diodes, strong permanent magnets and micro-and nano- thin optical cells make studies of the atomic transitions behavior in an external strong magnetic field  simple and robust [1,2].

            Particularly, the magnetic field-induced giant modification of probabilities for seven components of 6S1/2, Fg = 3 → 6P3/2, Fe = 5 atomic transition of the Cs D2 line, forbidden by selection rules (at zero magnetic field), is observed experimentally for the first time. The applied theoretical model describes very well the experimental curves [3].

            So called Hyperfine Paschen Back (HPB) regime has been demonstrated for the Potassium atoms (for the first time) in the presence of strong magnetic field. Important and striking peculiarities of HPB regime for Potassium atoms observed with the help micro-and nano- thin optical cells will be presented.

 

References

[1] A.Sargsyan,A.Tonoyan,R.Mirzoyan,D.Sarkisyan, A.Wojciechowski,W.Gawlik, Optics Letters, 39, 2270 (2014).

[2] A. Sargsyan, G. Hakhumyan, R. Mirzoyan, D.Sarkisyan, JETP Letters 98, 441(2013).

[3] A Sargsyan, A Tonoyan, G Hakhumyan, A Papoyan, E Mariotti, D. Sarkisyan, Laser Physics Letters, 11  , 055701 (2014).

 

Last Updated Date : 05/12/2022