Broadband frequency filters with quantum dot chains

Two-terminal electronic transport systems with a rectangular transmission can violate standard thermodynamic uncertainty relations. This is possible beyond the linear response regime and for parameters that are not accessible with rate equations obeying detailed balance. Looser bounds originating from fluctuation theorem symmetries alone remain respected. We demonstrate that optimal finite-sized quantum dot chains can implement rectangular transmission functions with high accuracy and discuss the resulting violations of standard thermodynamic uncertainty relations as well as heat engine performance.

Automated summary

Research shows that optimal finite-sized quantum dot chains can accurately implement rectangular transmission functions, leading to violations of standard thermodynamic uncertainty relations and changes in heat engine performance.