Related papers: Excitation-Pulse Intensity Mediated Coherent Control in V-Type Systems

Excitation-Pulse Intensity Mediated Coherent Control in V-Type Systems

URL: http://arxiv.org/abs/2506.13371v1
Date: Mon, 16 Jun 2025 11:24:41 GMT
Title: Excitation-Pulse Intensity Mediated Coherent Control in V-Type Systems
Authors: Rishabh Tripathi, Krishna K. Maurya, Rohan Singh,
Abstract summary: V-type three-level systems serve as fundamental models for exploring coherent light-matter interactions in a range of quantum systems.<n>We demonstrate that the coherent evolution of a three-level system critically depends on the product of the excitation-pulse duration and energy separation between the excited states.<n>We show that by varying the pulse areas of the excitation pulses, one can selectively turn individual spectral features on or off, corresponding to distinct quantum pathways.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: V-type three-level systems, where two excited states share a common ground state, serve as fundamental models for exploring coherent light-matter interactions in a range of quantum systems, from atomic gases to semiconductor nanostructures. In this work, we investigate the coherent evolution of such a system under strong femtosecond-pulse excitation by numerically solving the optical Bloch equations. We demonstrate that the coherent evolution of a three-level system critically depends on the product of the excitation-pulse duration and energy separation between the excited states. Using this understanding, we extend our analysis to simulate two-dimensional coherent spectra in a high-intensity regime. We show that by varying the pulse areas of the excitation pulses, one can selectively turn individual spectral features on or off, corresponding to distinct quantum pathways. Moreover, we can precisely adjust the phase of these peaks, illustrating an advanced level of coherent control within the system. Our approach provides a simple and robust framework for achieving advanced coherent control in multilevel systems.

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