Review of the applications of Kalman filtering in quantum systems
State variable and parameter estimations are important for signal sensing and feedback
control in both traditional engineering systems and quantum systems. The Kalman filter …
control in both traditional engineering systems and quantum systems. The Kalman filter …
[HTML][HTML] Generating non-classical correlations in two-level atoms
We address the effective generation of thermal non-classical correlations in two two-level
atoms when exposed to a Fock-state cavity incorporated with classical decoherence effects …
atoms when exposed to a Fock-state cavity incorporated with classical decoherence effects …
Quantum teleportation in a two-superconducting qubit system under dephasing noisy channel: role of Josephson and mutual coupling energies
We investigate the average fidelity of teleportation for a system of two superconducting
qubits under a dephasing noisy channel. Using the classical fidelity threshold concept, we …
qubits under a dephasing noisy channel. Using the classical fidelity threshold concept, we …
[HTML][HTML] Thermal local quantum uncertainty in a two-qubit-superconducting system under decoherence
MR Pourkarimi, S Haddadi, M Nashaat… - Alexandria Engineering …, 2023 - Elsevier
By considering the local quantum uncertainty (LQU) as a measure of quantum correlations,
the thermal evolution of a two-qubit-superconducting system is investigated. We show that …
the thermal evolution of a two-qubit-superconducting system is investigated. We show that …
Quantum advantages of teleportation and dense coding protocols in an open system
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 …
widely explored in the field of quantum computing. In this paper, the efficiency of quantum …
Quantum speed limit for a moving qubit inside a leaky cavity
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 …
quantum system to evolve from an arbitrary initial state to its orthogonal counterpart. This …
Quantum teleportation and phase quantum estimation in a two-qubit state influenced by dipole and symmetric cross interactions
SM Hosseiny - Physica Scripta, 2023 - iopscience.iop.org
In this paper, we address the problem of quantum teleportation in single and two-qubit
scenarios based on the Heisenberg XYZ two-qubit chain model under the influence of …
scenarios based on the Heisenberg XYZ two-qubit chain model under the influence of …
Control of Quantum‐Memory Induced by Generated Thermal XYZ‐Heisenberg Entanglement: y‐Component DM Interaction
FM Aldosari, AM Alsahli, ABA Mohamed… - Annalen der …, 2023 - Wiley Online Library
This study explores the thermal quantum‐memory‐assisted entropic uncertainty relation
(QM‐EUR) and entanglement in a general two‐qubit XYZ‐Heisenberg spin chain model in …
(QM‐EUR) and entanglement in a general two‐qubit XYZ‐Heisenberg spin chain model in …
Entanglement dynamics in collision models and entanglement quilts
We study the entanglement dynamics of a family of quantum collision models by analytically
solving the pairwise concurrence for all qubit pairs. We introduce a diagrammatic method …
solving the pairwise concurrence for all qubit pairs. We introduce a diagrammatic method …
[PDF][PDF] Quantum Speed Limit for a Moving Qubit inside a Leaky Cavity. Photonics 2022, 9, 875
M Hadipour, S Haseli, H Dolatkhah, S Haddadi… - 2022 - researchgate.net
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 …
quantum system to evolve from an arbitrary initial state to its orthogonal counterpart. This …