Add to ORKGWe identify and explore the intriguing property of resource resonance arising within resource theories of entanglement, coherence and thermodynamics. While the theories considered are reversible asymptotically, the same is generally not true in realistic scenarios where the available resources are bounded. The finite-size effects responsible for this irreversibility could potentially prohibit small quantum information processors or thermal machines from achieving their full potential. Nevertheless, we show here that by carefully engineering the resource interconversion process any such losses can be greatly suppressed. Our results are predicted by higher order expansions of the trade-off between the rate of resource interconversion and the ...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
In this quantum thermodynamics [1] talk, I will discuss work extraction in the quantum regime. We se...
We identify and explore the intriguing property of resource resonance arising within resource theori...
© 2019 American Physical Society. We identify and explore the intriguing property of resource resona...
In recent years it has been recognized that properties of physical systems such as entanglement, ath...
© 2019 American Physical Society. We consider the problem of interconverting a finite amount of reso...
The ideas of thermodynamics have proved fruitful in the setting of quantum information theory, in pa...
Resource theories mathematically capture operational restrictions that naturally arise in various ph...
We develop a unified framework to characterize one-shot transformations of dynamical quantum resourc...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
Resource theory is a widely applicable framework for analyzing the physical resources required for g...
In many different fields of science, it is useful to characterize physical states and processes as r...
Landauer’s principle asserts that any computation has an unavoidable energy cost that grows proporti...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
In this quantum thermodynamics [1] talk, I will discuss work extraction in the quantum regime. We se...
We identify and explore the intriguing property of resource resonance arising within resource theori...
© 2019 American Physical Society. We identify and explore the intriguing property of resource resona...
In recent years it has been recognized that properties of physical systems such as entanglement, ath...
© 2019 American Physical Society. We consider the problem of interconverting a finite amount of reso...
The ideas of thermodynamics have proved fruitful in the setting of quantum information theory, in pa...
Resource theories mathematically capture operational restrictions that naturally arise in various ph...
We develop a unified framework to characterize one-shot transformations of dynamical quantum resourc...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
Resource theory is a widely applicable framework for analyzing the physical resources required for g...
In many different fields of science, it is useful to characterize physical states and processes as r...
Landauer’s principle asserts that any computation has an unavoidable energy cost that grows proporti...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
We extend the tools of quantum resource theories to scenarios in which multiple quantities (or resou...
In this quantum thermodynamics [1] talk, I will discuss work extraction in the quantum regime. We se...
