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We investigated the polarization properties of superfluorescence (SF) emitted from dense cesium atomic vapor in a cell. The atoms were excited from the 6S ground to the 8P state using… Click to show full abstract
We investigated the polarization properties of superfluorescence (SF) emitted from dense cesium atomic vapor in a cell. The atoms were excited from the 6S ground to the 8P state using a femtosecond laser pulse. The SF fields generated on the cascaded decay, 8P→8S→7P, mediated the nonlinear optical process. We observed 4.2-µm and 456-nm forward directional emissions generated on the 8S→7P and 7P→6S transitions, respectively. The polarizations of the two fields were correlated in each laser shot, and their directions fluctuated from shot to shot, reflecting the noise that initiated the 4.2-µm emission.
Journal Title: Optics letters
Year Published: 2021
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