A collective statistical potential for identical fermions is repulsive for pairs but develops attractions for N≥3 whose minima coincide with Pauli crystals, providing their energetic origin and revealing inner-shell attraction for large N.
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Tuning charger frequency to resonance in a 1D bosonic quantum battery achieves perfect energy transfer, with many-body effects and attractive interactions enhancing charging power and efficiency over single-particle cases.
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Statistical Potential for Identical Fermions: Emergent Attraction and Pauli Crystal Formation
A collective statistical potential for identical fermions is repulsive for pairs but develops attractions for N≥3 whose minima coincide with Pauli crystals, providing their energetic origin and revealing inner-shell attraction for large N.
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Enhancing ultracold atomic batteries using tunable interactions
Tuning charger frequency to resonance in a 1D bosonic quantum battery achieves perfect energy transfer, with many-body effects and attractive interactions enhancing charging power and efficiency over single-particle cases.