A gauge-invariant formulation of quantum thermodynamics is constructed from restricted information, yielding a stochastic invariant entropy that obeys detailed fluctuation theorems and unifies the first and second laws via invariant work and coherent heat.
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 spin-triplet encoding based on valley-singlet states makes shuttling fidelities in Si/SiGe quantum wells higher and more robust to small valley splittings by suppressing Landau-Zener excitations.
citing papers explorer
-
Geometry of restricted information: the case of quantum thermodynamics
A gauge-invariant formulation of quantum thermodynamics is constructed from restricted information, yielding a stochastic invariant entropy that obeys detailed fluctuation theorems and unifies the first and second laws via invariant work and coherent heat.
-
Using a spin-triplet encoding to enhance shuttling fidelities in Si/SiGe quantum wells
A spin-triplet encoding based on valley-singlet states makes shuttling fidelities in Si/SiGe quantum wells higher and more robust to small valley splittings by suppressing Landau-Zener excitations.