A resonant beam-driven polarimetry technique enables continuous non-destructive spin-frequency metrology in storage rings with T^{-3/2} scaling and coherence times approaching 10^5 s.
A non-compact QCD axion,
2 Pith papers cite this work. Polarity classification is still indexing.
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Dilaton from broken scale symmetry meets all conditions for non-compact QCD axion cosmology including non-periodicity and timely domain-wall collapse.
citing papers explorer
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Continuous coherent spin-frequency metrology in storage rings via resonant beam-driven detection
A resonant beam-driven polarimetry technique enables continuous non-destructive spin-frequency metrology in storage rings with T^{-3/2} scaling and coherence times approaching 10^5 s.
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QCD axion from broken scale symmetry
Dilaton from broken scale symmetry meets all conditions for non-compact QCD axion cosmology including non-periodicity and timely domain-wall collapse.