English

Digitizing ultrafast adiabatic passage with a pulse train

Quantum Physics 2026-02-17 v1

Abstract

We present a digitized implementation of rapid adiabatic passage based on a train of weak, frequency-varying ultrafast pulses. Analytic conditions on the subpulse Rabi frequencies and detunings are derived to reproduce the continuous-time population dynamics of a conventional long-pulse excitation. We find that the reproduced dynamics achieves high fidelity even for pulse trains with a small number of subpulses, provided that each subpulse remains within the perturbative regime. The subpulses act as discrete samples of the underlying continuous evolution; consequently, more complex population dynamics, characterized by multiple oscillations prior to the onset of adiabaticity, require a larger number of subpulses for accurate reproduction. In addition, we demonstrate how the sidebands of a frequency comb can be exploited for resonant excitation at large carrier detuning and for the precise preparation of superposition states.

Keywords

Cite

@article{arxiv.2602.13592,
  title  = {Digitizing ultrafast adiabatic passage with a pulse train},
  author = {Bo Y. Chang and Ignacio R. Sola and Svetlana A. Malinovskaya and Sebastian C. Carrasco and Vladimir S. Malinovsky},
  journal= {arXiv preprint arXiv:2602.13592},
  year   = {2026}
}
R2 v1 2026-07-01T10:36:32.379Z