Abstract
Abstract
We report on the measurements of magnetically assisted dispersion and gain in a Zeeman degenerate two-level system associated with the closed D
2 hyperfine transition
F
g
=
3
→
F
e
=
2
cold cesium atoms. We use a Mach–Zehnder interferometer to measure the dispersive properties of this system in the presence of a magnetic field, transversal to the quantization direction, when the atomic system is excited by a coupling and probe beams with orthogonal polarizations. We have measured the spectrum of the refraction index for different magnitudes of the external magnetic field and different coupling beam intensities. A previously published theoretical model, using a simpler atomic transition
F
g
=
1
→
F
e
=
0
, accounts reasonably for the experimentally observed gain and dispersive lineshapes.