Soroush Haseli
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Work Extraction from Classically Correlated States in Noisy Quantum Channels with Memory Open
This study investigates the potential of local non-unital noise and quantum channel memory to enhance work extraction from classically correlated quantum states. Utilizing the framework of daemonic ergotropy, which incorporates measurement…
Amplified quantum battery via dynamical modulation Open
We investigate the charging dynamics of a frequency-modulated quantum battery (QB) placed within a dissipative cavity environment. Our study focuses on the interaction of such a battery under both weak and strong coupling regimes, employin…
Nonequilibrium Quantum Batteries: Amplified Work Extraction Through Thermal Bath Modulation Open
This study examines the steady state characteristics of work extraction in a two cell and three cell quantum battery interacting with multiple thermal reservoirs. Employing the quantum master equation framework within the Born-Markov appro…
Amplified quantum battery via dynamical modulation Open
We investigate the charging dynamics of a frequency-modulated quantum battery (QB) placed within a dissipative cavity environment. Our study focuses on the interaction of such a battery under both weak and strong coupling regimes, employin…
Enhancing the efficiency of open quantum batteries via adjusting the classical driving field Open
In the context of quantum information, a quantum battery refers to a system composed of quantum particles that can store and release energy in a way that is governed by the principles of quantum mechanics. The study of open quantum batteri…
Proposed Scheme for a Cavity‐Based Quantum Battery Open
A scheme for quantum batteries consisting of an atom‐cavity interacting system under a structured reservoir in the non‐Markovian regime is proposed. A multi‐parameter regime for the cavity‐reservoir coupling and reveal how these parameters…
Steady-state work extraction from two coupled qubits embedded within equilibrium and non-equilibrium reservoirs Open
Work extraction is a fundamental aspect in thermodynamics. In the context of quantum physics, ergotropy quantifies the maximum amount of work that can be obtained from quantum system through cyclic unitary process. In this work, the steady…
Work extraction from quantum coherence in non-equilibrium environment Open
Ergotropy, as a measure for extractable work from a quantum system, has garnered significant attention due to its relevance in quantum thermodynamics and information processing. In this work, the dynamics of ergotropy will be investigated …
Extracting work from multiqubit-interacting system coupled to a common environment Open
We consider the task of extracting work from multiqubit-interaction system coupled to a common non-Markovian environment. By adjusting various parameters such as the number of qubits and the strength of interaction between qubits, the envi…
Enhancing the efficiency of open quantum batteries via adjusting the classical driving field Open
In the context of quantum information, a quantum battery refers to a system composed of quantum particles that can store and release energy in a way that is governed by the principles of quantum mechanics. The study of open quantum batteri…
Extracting Work From Two Gravitational Cat States Open
This work examines how a thermal environment affects the work that can be extracted from gravitational cat states. The purpose of this work is to provide an in-depth discussion of the effects of temperature and gravitational interaction be…
The effects of detuning on entropic uncertainty bound and quantum correlations in dissipative environment Open
One of the fundamental arguments in quantum information theory is the uncertainty principle. In accordance with this principle, two incompatible observables cannot be measured with high precision at the same time. In this work, we will use…
Quantum speed limit and non-Markovianity in structured environments Open
We investigate the relationship between quantum speed limit time and the non-Markovianity of an atom in structured environments. We show that there exists an inverse relation between them, which means that the non-Markovian feature of the …
Practical Scheme for Realization of a Quantum Battery Open
We propose a practical scheme for a quantum battery consisting of an atom-cavity interacting system under a structured reservoir in the non-Markovian regime. We investigate a multi-parameter regime for the cavity-reservoir coupling and rev…
Enhancing the efficiency of open quantum batteries via adjusting the classical driving field Open
In the context of quantum information, a quantum battery refers to a system composed of quantum particles that can store and release energy in a way that is governed by the principles of quantum mechanics. The study of open quantum batteri…
Quantum Advantages of Teleportation and Dense Coding Protocols in an Open System Open
Quantum teleportation and dense coding are well-known quantum protocols that have been widely explored in the field of quantum computing. In this paper, the efficiency of quantum teleportation and dense coding protocols is examined in two-…
Quantum dynamical speedup for correlated initial states Open
The maximal evolution speed of any quantum system can be expressed by the quantum speed limit time. In this paper, we consider a model in which the system has a correlation with the environment. The influence of the initial correlation bet…
Quantum speed limit of Jaynes-Cummings model with detuning for arbitrary initial states Open
The quantum speed limit (QSL) of the Jaynes-Cummings model with detuning for arbitrary initial states is investigated. We mainly focus on the influences of the detuning, width of Lorentzian spectral density, and coherence of the initial st…
Local Quantum Uncertainty and Quantum Interferometric Power in an Anisotropic Two-Qubit System Open
Investigating the favorable configurations for non-classical correlations preservation has remained a hotly debated topic for the last decade. In this regard, we present a two-qubit Heisenberg spin chain system exposed to a time-dependent …
The study of quantum speed limit time in a quantum critical environment Open
Quantum theory sets a bound on the speed of quantum evolution. The shortest time needed for a quantm system to evolve from an initial state to the target state is known as the quantum speed limit time. The study of this time in open and cl…
Quantum Speed Limit for a Moving Qubit inside a Leaky Cavity Open
The quantum speed limit (QSL) is a theoretical lower bound of the time required for a quantum system to evolve from an arbitrary initial state to its orthogonal counterpart. This figure can be used to characterize the dynamics of open quan…
View article: The tripartite quantum-memory-assisted entropic uncertainty relation and upper bound on shareability of quantum discord
The tripartite quantum-memory-assisted entropic uncertainty relation and upper bound on shareability of quantum discord Open
Quantum discord and quantum uncertainty are two important features of the quantum world. In this work, the relation between entropic uncertainty relation and the shareability of quantum discord is studied. First, by using tripartite quantu…
Multipartite uncertainty relation with quantum memory Open
We present a new quantum-memory-assisted entropic uncertainty relation for multipartite systems which shows the uncertainty principle of quantum mechanics. Notably, our results recover some well-known entropic uncertainty relations for two…
Tripartite quantum-memory-assisted entropic uncertainty relations for multiple measurements Open
Quantum uncertainty relations are typically analyzed for a pair of incompatible observables, however, the concept per se naturally extends to situations of more than two observables. In this work, we obtain tripartite quantum memory-assist…