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Solving tricky quantum optics problems with assistance from (artificial) intelligence

Quantum Physics 2026-04-15 v1 Artificial Intelligence Atomic Physics

Abstract

The capabilities of modern artificial intelligence (AI) as a ``scientific collaborator'' are explored by engaging it with three nuanced problems in quantum optics: state populations in optical pumping, resonant transitions between decaying states (the Burshtein effect), and degenerate mirrorless lasing. Through iterative dialogue, the authors observe that AI models--when prompted and corrected--can reason through complex scenarios, refine their answers, and provide expert-level guidance, closely resembling the interaction with an adept colleague. The findings highlight that AI democratizes access to sophisticated modeling and analysis, shifting the focus in scientific practice from technical mastery to the generation and testing of ideas, and reducing the time for completing research tasks from days to minutes.

Keywords

Cite

@article{arxiv.2506.12770,
  title  = {Solving tricky quantum optics problems with assistance from (artificial) intelligence},
  author = {Manas Pandey and Bharath Hebbe Madhusudhana and Saikat Ghosh and Dmitry Budker},
  journal= {arXiv preprint arXiv:2506.12770},
  year   = {2026}
}

Comments

9 pages, 3 figures

R2 v1 2026-07-01T03:18:17.698Z