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Auteurs principaux: Spahn, Yoan, Hartmann, Jens, Saalfrank, Benedikt, Fleischhauer, Michael, Halfmann, Thomas, Peters, Thorsten
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.03028
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author Spahn, Yoan
Hartmann, Jens
Saalfrank, Benedikt
Fleischhauer, Michael
Halfmann, Thomas
Peters, Thorsten
author_facet Spahn, Yoan
Hartmann, Jens
Saalfrank, Benedikt
Fleischhauer, Michael
Halfmann, Thomas
Peters, Thorsten
contents We report on the observation of motion-induced directionality in the collective emission of atoms confined within a hollow-core waveguide. Unlike in chiral waveguides, the atom-field coupling is here isotropic in the forward and backward direction. However, Raman-induced effective two-level emitters with spatially oscillating phases of the transition dipole enable thermally induced, but controllable directionality of the collective emission. By tuning the characteristic rate of collective decay we achieve a directionality of up to 0.89(1). We furthermore study the correlations of the emitted light close to and well above the threshold to collective emission, showing a buildup of coherence in the superfluorescent bursts while exhibiting thermal statistics below the threshold. To understand the underlying mechanism we employ numerical simulations based on the Truncated Wigner Approximation for spins and find good agreement. Additionally we present a simple model capable of reproducing the observed directionality via location blurring induced by the thermal motion of the atoms during collective emission. Our results will enable studies of collective, nonreciprocal interactions in non-chiral systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_03028
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Motion-induced directionality of collective emission in a non-chiral waveguide
Spahn, Yoan
Hartmann, Jens
Saalfrank, Benedikt
Fleischhauer, Michael
Halfmann, Thomas
Peters, Thorsten
Quantum Physics
We report on the observation of motion-induced directionality in the collective emission of atoms confined within a hollow-core waveguide. Unlike in chiral waveguides, the atom-field coupling is here isotropic in the forward and backward direction. However, Raman-induced effective two-level emitters with spatially oscillating phases of the transition dipole enable thermally induced, but controllable directionality of the collective emission. By tuning the characteristic rate of collective decay we achieve a directionality of up to 0.89(1). We furthermore study the correlations of the emitted light close to and well above the threshold to collective emission, showing a buildup of coherence in the superfluorescent bursts while exhibiting thermal statistics below the threshold. To understand the underlying mechanism we employ numerical simulations based on the Truncated Wigner Approximation for spins and find good agreement. Additionally we present a simple model capable of reproducing the observed directionality via location blurring induced by the thermal motion of the atoms during collective emission. Our results will enable studies of collective, nonreciprocal interactions in non-chiral systems.
title Motion-induced directionality of collective emission in a non-chiral waveguide
topic Quantum Physics
url https://arxiv.org/abs/2603.03028