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Nour Abdelmawla Zidan

Associate Professor

Nour Abdelmawla Zidan
nazidan@ju.edu.sa
Mathematics Department - College of Science
Collage
College of Science
كلية العلوم
Department
Mathematics Department
قسم الرياضيات
Researches
15
15
Page Visits
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Current courses

Code Year Course Name
MTH 351 Statics
MATH 636 Partial Differential Equations 2

Recent courses

Code Year Course Name
MTH 271 General statistics
MTH 424 Mathematical Biology
MTH 424 Mathematical Biology
MATH 645 Advanced Scientific Computation
MATH 699 Thesis
MATH 0632 Mathematical Biology

Fm researches

Last Researches

Quantum Fisher information of atomic system interacting with a single cavity mode in the presence of Kerr medium
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of nonlocal correlation of two superconducting charge qubits induced by intrinsic decoherence
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of nonlocal correlation of two superconducting charge qubits induced by intrinsic decoherence
Nour Abdelmawla Abdelmawgoud Zidan

fm info

Researches

Quantum Fisher information of atomic system interacting with a single cavity mode in the presence of Kerr medium
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of nonlocal correlation of two superconducting charge qubits induced by intrinsic decoherence
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of nonlocal correlation of two superconducting charge qubits induced by intrinsic decoherence
Nour Abdelmawla Abdelmawgoud Zidan
Probing the engineering squeezing and phase phenomena in defective light crystals
Nour Abdelmawla Abdelmawgoud Zidan
Entanglement and teleportation in thermal states of spin chains with nonlinear coupling
Nour Abdelmawla Abdelmawgoud Zidan
Quantum Fisher information of two superconducting charge qubits under dephasing noisy channel
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of two-qubit Heisenberg XY state: external magnetic field and intrinsic decoherence effects
Nour Abdelmawla Abdelmawgoud Zidan
Quantum Fisher information for two-qubit XY spin-chain: individual characterization of different parameters
Nour Abdelmawla Abdelmawgoud Zidan
Local Quantum Uncertainty and Quantum Interferometric Power in an Anisotropic Two-Qubit System
Nour Abdelmawla Abdelmawgoud Zidan
Entanglement and Entropic Uncertainty of Two Two-Level Atoms
Nour Abdelmawla Abdelmawgoud Zidan
The optimal estimation state of one-axis twisting model
Nour Abdelmawla Abdelmawgoud Zidan
A Survey on Sharp Oscillation Conditions of Differential Equations with Several Delays
Nour Abdelmawla Abdelmawgoud Zidan
Entropic Uncertainty in Spin XY Model with Long-Range Interactions
Nour Abdelmawla Abdelmawgoud Zidan
Control-based verification of multiatoms in a cavity
Nour Abdelmawla Abdelmawgoud Zidan
Dynamics of the entanglement and teleportation of thermal state of a spin chain with multiple interactions
Nour Abdelmawla Abdelmawgoud Zidan

Education

Ph.D.
Sohag Unversity - Faculty of Science
2000 - 1996
BA
Sohag University - Faculty of Science
1999 - 1987
M.A.
Sohag University - Faculty of Science
1996 - 1993

Experience

ِASsistant professor
Sohag University
2012 - 2018

Assistant Professor of Applied Mathematics, Department of Mathematics, Faculty of Science, Sohag University

Professor
Sohag University
2020 - 2024

Professor of Applied Mathematics, Department of Mathematics, Faculty of Science, Sohag University

Assistant professor
Jouf University
2003 - 2012

Assistant Professor of Applied Mathematics, Department of Mathematics, College of Science, Al-Jouf University

Associate Professor
Jouf University
2018 - 2024

Associate Professor of Applied Mathematics, Department of Mathematics, College of Science, Al-Jouf University

Certifications

ICDL
2020 - 2030
Fundamental of Digital Transformation Certificate
2020 - 2025

Projects

Non-classical correlations between two two-level atoms in the presence of Kerr medium
2024 - 2025
Quantum-memory and entanglement dynamics of two dipole-coupled semiconductor qubits induced by intrinsic-decoherence model
2024 - 2025
Quantum information resources for two superconducting artificial atoms
2024 - 2025
Contact