Relativistic Maxwell-Bloch equations are derived showing that radiating system response and coherence between emitters are preserved across reference frames, with timescales and intensity transforming as expected relativistically.
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Subradiance from entangled Dicke states in atomic hydrogen renders galactic halo gas dark in emission and transparent, matching dark matter properties at observed temperatures near 100 K.
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Relativistic Maxwell-Bloch Equations with Applications to Astrophysics
Relativistic Maxwell-Bloch equations are derived showing that radiating system response and coherence between emitters are preserved across reference frames, with timescales and intensity transforming as expected relativistically.
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Quantum coherence and the invisible Universe: Subradiance as a dark matter mechanism
Subradiance from entangled Dicke states in atomic hydrogen renders galactic halo gas dark in emission and transparent, matching dark matter properties at observed temperatures near 100 K.