OPTICS AND NUCLEAR PHYSICS

Generation and absorption of photons by a two-level atom ultrastrongly coupled to an electromagnetic field

A. V. Kozlovskii

Lebedev Physical Institute, Russian Academy of Sciences, Moscow, 119991 Russia

Abstract: Within the Rabi quantum model, it has been shown theoretically that a two-level atom ultrastrongly coupled to an electromagnetic field generates or absorbs photons. Photons can be generated if the field is initially in the vacuum state. Under certain initial states of the atom + field system, the absorption of photons is possible in the field mode in the ultrastrong atom–field coupling regime. If the atom is initially in the ground (unexcited) state and the field is in the vacuum state, photons can be generated under resonance condition $\omega_a\approx\omega_f$ or $\xi\equiv\omega_a/\omega_f\approx1$, where $\omega_a$ and $\omega_f$ are the atomic transition and field frequencies, respectively, in the ultrastrong coupling regime. At the negative detuning when $\xi\ll1$ or $\omega_a\ll\omega_f$, Rabi oscillations of the average number of photons $\langle\hat{n}\rangle_t$ with $0\leq\langle\hat{n}\rangle_t\leq n_{\max}\gg1$ are observed in the case of the ultrastrong coupling with the atom–field coupling constant $\tilde g\equiv|g|/\omega_f\sim1$; in this case, the population of the excited atomic state is $P_e(t)\approx0.5$. At a large positive detuning when $\xi\gg1$, photons are not generated, i.e., $\langle\hat{n}\rangle\approx0$, and the atom remains in the initial state, i.e., $P_e(t)\approx0$. The statistics of photons in the generation regime is nearly chaotic: the variance of photons is much larger than the level of the coherent field state (i.e., is super-Poisson). Field photons are absorbed without the excitation of the atom in the ultrastrong coupling regime in the case of the coherent initial state of the field $(\langle\hat n(t=0\rangle>0)$ for certain positive detuning values. In this case, the field becomes sub-Poisson.

Received: 02.10.2024
Revised: 09.10.2024
Accepted: 09.10.2024

DOI: 10.31857/S0370274X24110144

 English version: Journal of Experimental and Theoretical Physics Letters, 2024, 120:10, 720–726