Addition to the dynamic Stark shift of the coherent population trapping resonance

• URL: http://arxiv.org/abs/2601.10319v1
• Date: Thu, 15 Jan 2026 11:56:10 GMT
• Title: Addition to the dynamic Stark shift of the coherent population trapping resonance
• Authors: Gavriil Voloshin, Konstantin Barantsev, Andrey Litvinov,
• Abstract summary: An extra shift arises due to the distortion of the resonance line shape when bichromatic laser radiation interacts with off-resonant atomic transitions.<n>It is found that under strong coupling conditions, the additional shift can deviate substantially from a linear dependence on light intensity.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: This paper presents a theoretical study of the light-induced shift of the coherent population trapping resonance. An analytical model is proposed that describes the interaction of two radiation components with an atomic system using a $Λ$ scheme and takes into account an additional level of excited state. Both weak and strong coupling regimes with off-resonant transitions are considered. It is shown that, in addition to the conventional dynamic Stark shift, an extra shift arises due to the distortion of the resonance line shape when bichromatic laser radiation interacts with off-resonant atomic transitions. An analytical expression for this additional shift is derived in the weak-coupling limit, and its significant impact on the resonance shape and sensitivity to the intensities of the laser field components is demonstrated. It is found that under strong coupling conditions, the additional shift can deviate substantially from a linear dependence on light intensity, suggesting new opportunities for controlling light shifts in precision atomic devices such as quantum frequency standards.

Related papers

• Nonclassical Driven-Dissipative Dynamics in Collective Quantum Optics [51.56484100374058]
  We study ensembles of interacting quantum emitters coherently driven by a laser field and coupled to photonic structures.<n>We find that off-resonant virtual states may gain population through dissipation, redefining their role in open systems.<n>Our models address challenges like inhomogeneous broadening and decoherence, demonstrating the feasibility of harnessing cooperative light-matter effects for quantum technologies.
  arXiv  Detail & Related papers  (2025-09-12T20:01:55Z)
• Nonlinear dynamical Casimir effect and Unruh entanglement in waveguide QED with parametrically modulated coupling [83.88591755871734]
  We study theoretically an array of two-level qubits moving relative to a one-dimensional waveguide. When the frequency of this motion approaches twice the qubit resonance frequency, it induces parametric generation of photons and excitation of the qubits. We develop a comprehensive general theoretical framework that incorporates both perturbative diagrammatic techniques and a rigorous master-equation approach.
  arXiv  Detail & Related papers  (2024-08-30T15:54:33Z)
• Directional spontaneous emission in photonic crystal slabs [49.1574468325115]
  Spontaneous emission is a fundamental out-of-equilibrium process in which an excited quantum emitter relaxes to the ground state due to quantum fluctuations. One way to modify these photon-mediated interactions is to alter the dipole radiation patterns of the emitter, e.g., by placing photonic crystals near them. Our study delves into the interaction between these directional emission patterns and the aforementioned variables, revealing the untapped potential to fine-tune collective quantum optical phenomena.
  arXiv  Detail & Related papers  (2023-12-04T15:35:41Z)
• Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation [49.1574468325115]
  Two non-identical quantum emitters, when placed within a cavity and coherently excited at the two-photon resonance, can reach stationary states of nearly maximal entanglement. We show that this mechanism is merely one among a complex family of phenomena that can generate both stationary and metastable entanglement when driving the emitters at the two-photon resonance.
  arXiv  Detail & Related papers  (2023-06-09T16:49:55Z)
• Reminiscence of classical chaos in driven transmons [117.851325578242]
  We show that even off-resonant drives can cause strong modifications to the structure of the transmon spectrum rendering a large part of it chaotic. Results lead to a photon number threshold characterizing the appearance of chaos-induced quantum demolition effects.
  arXiv  Detail & Related papers  (2022-07-19T16:04:46Z)
• Dynamics of Transmon Ionization [94.70553167084388]
  We numerically explore the dynamics of a driven transmon-resonator system under strong and nearly resonant measurement drives. We find clear signatures of transmon ionization where the qubit escapes out of its cosine potential.
  arXiv  Detail & Related papers  (2022-03-21T18:00:15Z)
• Superradiance in dynamically modulated Tavis-Cumming model with spectral disorder [62.997667081978825]
  Superradiance is the enhanced emission of photons from quantum emitters collectively coupling to the same optical mode. We study the interplay between superradiance and spectral disorder in a dynamically modulated Tavis-Cummings model.
  arXiv  Detail & Related papers  (2021-08-18T21:29:32Z)
• Quantum gravimetry in the same internal state using composite light Raman pulses [0.0]
  We introduce an atomic gravimetric sequence using Raman-type composite light pulses that excites a superposition of two momentum states with the same internal level. The scheme allows the suppression of common noise, making it less sensitive to external fluctuations of electromagnetic fields.
  arXiv  Detail & Related papers  (2021-04-15T17:05:26Z)
• Non-Markovian perturbation theories for phonon effects in strong-coupling cavity quantum electrodynamics [0.0]
  phonon interactions are inevitable in cavity quantum electrodynamical systems based on solid-state emitters or fluorescent molecules. It remains a significant theoretical challenge to describe such effects in a computationally efficient manner. We consider four non-Markovian perturbative master equation approaches to describe such dynamics.
  arXiv  Detail & Related papers  (2021-03-26T08:32:19Z)
• Strong Exciton-Vibrational Coupling in Molecular Assemblies. Dynamics using the Polaron Transformation in HEOM Space [0.0]
  We describe for the first time how the polaron transformation can be applied in the context of Frenkel exciton dynamics. We derive hierarchical equations for polaron transformation in analogy to those for time propagation. It makes a clear difference whether the polaron transformation is performed in the local or exciton basis.
  arXiv  Detail & Related papers  (2021-03-25T07:38:20Z)
• Beyond the Rabi model: light interactions with polar atomic systems in a cavity [0.0]
  The Rabi Hamiltonian describes the interaction between a two-level atomic system and a single cavity mode of the electromagnetic field. In this work we consider the most general Rabi model, incorporating the effects of permanent atomic electric dipole moments.
  arXiv  Detail & Related papers  (2021-03-20T19:54:17Z)
• Optical response of atom chains beyond the limit of low light intensity: The validity of the linear classical oscillator model [0.0]
  We study the case of perfectly mode-matched drives and the case of standing wave drives. By individually exciting eigenmodes we find that this critical intensity has a $upsilon_alpha2.5$ scaling for narrower resonances and more strongly interacting systems. The $upsilon_alpha3$ scaling also corresponds to the semiclassical result whereby quantum fluctuations between the atoms have been neglected.
  arXiv  Detail & Related papers  (2020-02-04T17:32:24Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.