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Quantum versus classical chirps in a Rydberg atom

Quantum Physics 2020-11-23 v3

Abstract

The interplay between quantum-mechanical and classical evolutions in a chirped driven Rydberg atom is discussed. It is shown that the system allows two continuing resonant excitation mechanisms, i.e., a successive two-level transitions (ladder climbing) and a continuing classical-like nonlinear phase locking (autoresonance). The persistent 1:11:1 and 2:12:1 resonances between the driving and the Keplerian frequencies are studied in detail and characterized in terms of two dimensionless parameters P1,2P_{1,2} representing the driving strength and the nonlinearity in the problem, respectively. The quantum-mechanical rotating wave and the classical single resonance approximations are used to describe the regimes of efficient classical or quantum-mechanical excitation in this two-parameter space.

Keywords

Cite

@article{arxiv.2008.09182,
  title  = {Quantum versus classical chirps in a Rydberg atom},
  author = {Tsafrir Armon and Lazar Friedland},
  journal= {arXiv preprint arXiv:2008.09182},
  year   = {2020}
}
R2 v1 2026-06-23T18:00:05.805Z