Reports signature of arrested prethermal relaxation in NO ultracold plasma blocked by high-l Rydberg gap, with local RF or state excitation driving global equilibration via dissipation.
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A driven dipole-conserving Bose-Hubbard model realizes controllable resonant splitting and motion of dipoles and fractons via engineered time-dependent tensor electric fields.
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Dynamical control in a prethermalized molecular ultracold plasma: Local dissipation drives global relaxation
Reports signature of arrested prethermal relaxation in NO ultracold plasma blocked by high-l Rydberg gap, with local RF or state excitation driving global equilibration via dissipation.
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Resonant dynamics of dipole-conserving Bose-Hubbard model with time-dependent tensor electric fields
A driven dipole-conserving Bose-Hubbard model realizes controllable resonant splitting and motion of dipoles and fractons via engineered time-dependent tensor electric fields.