Higher thermodynamic efficiency in preparing non-equilibrium spin states in atomic vapors directly improves the quantum Fisher information bound on magnetometer sensitivity.
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Multilayer graphene quantum Stirling engines reach Carnot efficiency at low magnetic fields and moderate temperatures, with AB-stacked bilayer showing the broadest viable parameter range.
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Thermodynamical aspects of optically pumped dense atomic medium
Higher thermodynamic efficiency in preparing non-equilibrium spin states in atomic vapors directly improves the quantum Fisher information bound on magnetometer sensitivity.
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Reaching maximum efficiency in quantum Stirling engines using multilayer graphene
Multilayer graphene quantum Stirling engines reach Carnot efficiency at low magnetic fields and moderate temperatures, with AB-stacked bilayer showing the broadest viable parameter range.