Robust Superradiance and Spontaneous Spin Ordering in Disordered Waveguide QED
- URL: http://arxiv.org/abs/2510.13671v1
- Date: Wed, 15 Oct 2025 15:30:30 GMT
- Title: Robust Superradiance and Spontaneous Spin Ordering in Disordered Waveguide QED
- Authors: Xin H. H. Zhang, Daniel Malz, Peter Rabl,
- Abstract summary: We study the collective emission of a disordered array of $N$ excited two-level atoms into a one-dimensional photonic waveguide.<n>Using large-scale semiclassical simulations, we find that this key signature of superradiance remains robust under strong spatial and spectral disorder.
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- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We study the collective emission of a disordered array of $N$ excited two-level atoms into a one-dimensional photonic waveguide. In the perfectly ordered case, where atoms are spaced by exact integer multiples of the wavelength, the system exhibits the characteristic superradiant burst with a peak emission rate scaling as $N^2$. Using large-scale semiclassical simulations, we find that this key signature of superradiance remains asymptotically robust under strong spatial and spectral disorder, but also exhibits subtle finite-size scaling toward this limit. To explain our observations, we provide an analytical variational estimate for the maximal decay rate, which tightly bounds the numerical results and reveals how disorder shapes the collective decay. Specifically, we find that even in the presence of strong disorder, the spins tend to self-organize spontaneously according to their locations, which overall optimizes constructive interference effects and explains the emergence of mirror-asymmetric correlations in superradiant decay. These findings resolve important open questions regarding the existence and nature of superradiance in strongly disordered arrays and offer valuable insights for understanding collective quantum optical phenomena in realistic systems.
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