Traditional thermodynamics assumes that physical systems live in a probabilistic mixture of energy eigenstates, such that any lack of knowledge of each system’s definite energy is due to classical uncertainty. However, quantum mechanics enables systems to be a quantum superposition of eigenstates, and moreover, to have these superpositions be correlated non-locally across bipartite systems. A theoretical model is developed to study the thermodynamic properties of such systems, using a combination of quantum analogues of thermal operations and Maxwell’s demon. In this thesis, we demonstrate that using a sufficient number of superposition states, the non-local correlation with a two-level battery qubit can be established perfectly regardless ...
We consider a recently proposed four-level quantum heat engine (QHE) model to analyze the role of qu...
In this thesis, different aspects of the quantum Szilard engine are studied using the configuration ...
The performance enhancements observed in various models of continuous quantum thermal machines have ...
Planck found, when attempting to describe the way in which hot bodies glow, that energy at microscop...
Thermodynamics is a highly successful macroscopic theory widely used across the natural sciences and...
We analyze an engine whose working fluid consists of a single quantum particle, paralleling Szilard'...
We consider physical situations where the resource theories of coherence and thermodynamics play com...
Quantum coherence is being viewed as a possible resource that could improve the performance of quant...
Quantum energy coherences represent a thermodynamic resource, which can be exploited to extract ener...
Quantum coherence, the ability of a quantum system to be in a superposition of orthogonal quantum st...
In this quantum thermodynamics [1] talk, I will discuss work extraction in the quantum regime. We se...
The principle of superposition is one of the main building blocks of quantum physics and has tremend...
We investigate manipulations of pure quantum states under incoherent or strictly incoherent operatio...
Quantum Thermodynamics is a novel research field which explores the emergence of thermodynamics from...
We establish quantum thermodynamics for open quantum systems weakly coupled to their reservoirs when...
We consider a recently proposed four-level quantum heat engine (QHE) model to analyze the role of qu...
In this thesis, different aspects of the quantum Szilard engine are studied using the configuration ...
The performance enhancements observed in various models of continuous quantum thermal machines have ...
Planck found, when attempting to describe the way in which hot bodies glow, that energy at microscop...
Thermodynamics is a highly successful macroscopic theory widely used across the natural sciences and...
We analyze an engine whose working fluid consists of a single quantum particle, paralleling Szilard'...
We consider physical situations where the resource theories of coherence and thermodynamics play com...
Quantum coherence is being viewed as a possible resource that could improve the performance of quant...
Quantum energy coherences represent a thermodynamic resource, which can be exploited to extract ener...
Quantum coherence, the ability of a quantum system to be in a superposition of orthogonal quantum st...
In this quantum thermodynamics [1] talk, I will discuss work extraction in the quantum regime. We se...
The principle of superposition is one of the main building blocks of quantum physics and has tremend...
We investigate manipulations of pure quantum states under incoherent or strictly incoherent operatio...
Quantum Thermodynamics is a novel research field which explores the emergence of thermodynamics from...
We establish quantum thermodynamics for open quantum systems weakly coupled to their reservoirs when...
We consider a recently proposed four-level quantum heat engine (QHE) model to analyze the role of qu...
In this thesis, different aspects of the quantum Szilard engine are studied using the configuration ...
The performance enhancements observed in various models of continuous quantum thermal machines have ...