Flux control creates flat bands in a frustrated bosonic lattice that suppress heat loss and raise Otto-cycle work extraction while Stirling cycles gain work over wider ranges at lower efficiency.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
A new bound based on state-Hamiltonian correlations gives the exact maximum efficiency for multi-bath thermal engines and is achievable beyond the quasistatic regime in a quantum dot model.
citing papers explorer
-
Bosonic Working Media in a Frustrated Rhombi Chain: Otto and Stirling Cycles from Flat Bands, Caging, and Flux Control
Flux control creates flat bands in a frustrated bosonic lattice that suppress heat loss and raise Otto-cycle work extraction while Stirling cycles gain work over wider ranges at lower efficiency.
-
An Information-Theoretic Bound on Thermodynamic Efficiency and the Generalized Carnot's Theorem
A new bound based on state-Hamiltonian correlations gives the exact maximum efficiency for multi-bath thermal engines and is achievable beyond the quasistatic regime in a quantum dot model.