STIRAP in sodium vapor with picosecond laser pulses

Abstract

Experimental measurements and calculations of STIRAP transfer efficiencies were made on a sodium gas starting from the 32 S1/2 electronic ground state, passing through the 32 P1/2 and/or the 32 P3/2 to the 52 S1/2 state. The lasers used in the experiments had a pulse width of several picoseconds and were close to the Fourier transform limit. Although the linewidth of the laser was much smaller than the spin orbit splitting between the 32 P1/2 and 32 P3/2 states, Experiments and calculations reveal that both 3p states play a role in the transfer efficiency when the lasers are tuned to resonance through the 32 P1/2 state, revealing evidence for quantum interference between the competing pathways.