Comparing magic wavelengths for the 6 s 2 S 1 / 2 − 6 p 2 P 1 / 2,3 / 2 transitions of Cs using circularly and linearly polarized light

@article{Singh2016ComparingMW,
  title={Comparing magic wavelengths for the 6 s 2 S 1 / 2 − 6 p 2 P 1 / 2,3 / 2 transitions of Cs using circularly and linearly polarized light},
  author={Sukhjit Singh and Kiranpreet Kaur and Bijaya Kumar Sahoo and Bindiya Arora},
  journal={Journal of Physics B: Atomic, Molecular and Optical Physics},
  year={2016},
  volume={49}
}
We demonstrate magic wavelengths, at which an external electric field produces null differential Stark shifts, for the 6 s 2 S 1 / 2 − 6 p 2 P 1 / 2,3 / 2 transitions in a Cs atom due to circularly polarized light. In addition, we also obtain magic wavelengths using linearly polarized light in order to verify the previously reported values, and make a comparative study with the values obtained for circularly polarized light. A number of these wavelengths are found to be in the optical region… 
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References

SHOWING 1-10 OF 34 REFERENCES

Fast-beam laser lifetime measurements of the cesium 6p[sup 2]P[sub 1/2,3/2] states

We provide a detailed description of our fast-beam laser lifetime measurements in atomic cesium. Selective excitation of the neutral [sup 133]Cs 6p hthinsp;[sup 2]P[sub 1/2] and 6p hthinsp;[sup

Magic wavelengths for trapping the alkali-metal atoms with circularly polarized light

Extending the search for the magic wavelengths using the circularly polarized light in rubidium [Phys. Rev. A 86, 033416 (2012)], we pursue here to look for the magic wavelengths in the

Determination of electric-dipole matrix elements in K and Rb from Stark shift measurements

Stark shifts of potassium and rubidium D1 lines have been measured with high precision by Miller et al. [Phys. Rev. A 49, 5128 (1994)]. In this work, we combine these measurements with our all-order

High precision measurement of the static dipole polarizability of cesium.

The cesium 6(2)S(1/2) scalar dipole polarizability alpha(0) has been determined from the time-of-flight of laser cooled and launched cesium atoms traveling through an electric field. We find

State-insensitive trapping of Rb atoms: Linearly versus circularly polarized light

We study the cancellation of differential ac Stark shifts in the $5s$ and $5p$ states of the rubidium atom using the linearly and circularly polarized lights by calculating their dynamic

Precision atomic spectroscopy for improved limits on variation of the fine structure constant and local position invariance.

TLDR
Tests of local position invariance and the variation of fundamental constants from measurements of the frequency ratio of the 282-nm 199Hg+ optical clock transition to the ground state hyperfine splitting in 133Cs show results similar to those reported for the absolute optical frequency measurements in H and 171Yb+ vs other 133Cs standards.

Experimental observation of magic-wavelength behavior of {sup 87}Rb atoms in an optical lattice

We demonstrate the cancellation of the differential ac Stark shift of the microwave hyperfine clock transition in trapped $^{87}\mathrm{Rb}$ atoms. Recent progress in metrology exploits so-called

Relativistic many-body calculations of energy levels, hyperfine constants, electric-dipole matrix elements, and static polarizabilities for alkali-metal atoms

Removal energies and hyperfine constants of the lowest four $ns,$ ${\mathrm{np}}_{1/2},$ and ${\mathrm{np}}_{3/2}$ states in Na, K, Rb, and Cs are calculated; removal energies of the $n=7\char21{}10$

Magic wavelengths in the alkaline-earth-metal ions

We present magic wavelengths for the $nS$ - $nP_{1/2,3/2}$ and $nS$ - $mD_{3/2,5/2}$ transitions, with the respective ground and first excited $D$ states principal quantum numbers $n$ and $m$, in the

Optimal Design of Dipole Potentials for E-cient Loading of Sr Atoms

We propose and demonstrate a novel far-off-resonance optical dipole trap (FORT) that is compatible with Doppler cooling. Strontium atoms are magneto-optically cooled and trapped by the spin-forbidden