Coherent control of atomic quantum states by single frequency-chirped laser pulses

摘要

We present a scheme of population transfer between two metastable (ground) states of the Lambda atom without considerable excitation of the atom using single frequency-chirped laser pulses. The physics of the process is generation of the "trapped" superposition of the ground states by the laser pulse at sufficiently high laser peak intensity. The main conditions for realization of this regime are the following: The width of the transform-limited laser pulse envelope frequency spectrum (without chirp) must be smaller and the peak Rabi frequency of the pulse must be larger than the frequency interval between the two ground states of the Lambda atom. During the frequency chirp, the laser pulse must first come into resonance with the transition from the initially occupied ground state to the excited state and after that with the transition between the excited and second initially empty ground states. In the case when the envelope frequency spectrum width (without chirp) of the pulse exceeds the frequency interval between the two ground states, we show a possibility of controllable generation of superposition of the ground states with a controllable excitation of the Lambda atom.