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Quantum Algorithms
Interaction of twisted light with free twisted atoms
arXiv
Authors: I. Pavlov, A. Chaikovskaia, D. Karlovets
Year
2026
Paper ID
45581
Status
Preprint
Abstract Read
~2 min
Abstract Words
201
Citations
N/A
Abstract
We investigate absorption and scattering of structured light by atoms, treating the photon and the atomic center of mass as spatially localized wave packets. We show that vortex photons can transfer orbital angular momentum (OAM) to the atomic center of mass with near-perfect efficiency in head-on collisions when the impact parameter b is smaller than the atomic transverse coherence length σ, which ranges from nanometers to sub-micrometer scales. Larger offsets result in a shifted mean OAM and a finite variance, both controlled by the ratio b/σ. The wave-packet nature of light enables electronic transitions that violate standard selection rules, albeit with a clear hierarchy where the dipole transition dominates. For femtosecond pulses, the finite spatial coherence of the photon leads to measurable shaping of the resonant absorption lines. We demonstrate a transverse recoil of the atom in a vicinity of the photonic vortex, dubbed "the superkick", and its dual effect - "the selfkick" - when an initially twisted atomic packet experiences recoil upon absorbing a gaussian photon. These phenomena are within reach of experimental capabilities using structured light in combination with cold atomic beams and ions in Penning traps, providing a route to the controlled generation and manipulation of non-gaussian atomic packets.
Why This Paper Matters
- It adds a 2026 reference point for readers tracking recent quantum research.
- We investigate absorption and scattering of structured light by atoms, treating the photon and the atomic center of mass as spatially localized wave packets.
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