Information-flow contributions to precision–cost trade-offs in quantum systems

Determine how information flow between subsystems modifies the trade-offs between precision, entropy production, and dynamical activity for currents and related observables in the quantum regime, thereby extending thermodynamic and kinetic uncertainty relations to include information-flow terms.

Background

Thermodynamic and kinetic uncertainty relations (TURs/KURs) quantify precision–cost trade-offs for currents, with several quantum generalizations derived for Markovian dynamics. In classical multipartite systems, information flow is known to enhance precision beyond energetic costs alone.

How information flow couples with energetic costs and precision in genuinely quantum settings—where coherence and entanglement can play key roles—remains unresolved, and addressing it would unify precision bounds with information-theoretic resources.