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Prof.ABDELBASET ABDELHAMEED MOHAMED MOHAMED

Professor of Mathematics, Prince Sattam Bin Abdulaziz Professor Department of Mathematics College of Sciences In Aflaj
  • Aflaj
  • 011-588-0561879253
  • a.mohamed@psau.edu.sa
  • Curriculum Vitae
  • Publications

Education

  • • Bachelor of Science (Physics) South Valley university, Egypt, 1992-1996. • Bachelor of Science (Mathematics) Assuit University, Egypt, 1999-2002. • Master of Science (Applied Mathematics), Assuit University, Egypt, 2003-2006. • Doctor of Philosophy in Mathematics (Applied Mathematics-Quantum Information) Assuit University, Egypt, 2006 -2009.

Research Interests

  • • Quantum Mechanics, Quantum Optics, Analysis Mechanics, Applied Maths.
  • • Algebra (Introductory), Linear Algebra
  • • Calculus, Advanced Calculus, Differential Equations
  • • Analytical Geometry (Planar and Solid ), Special Functions
  • • Computer Science as Microsoft Office (Word, Excel, Power Point) and Programming Languages (Basic, Fortran, Matlab Programs).

Experience

  • 2002 - 2006 - Demonstrator in Maths. Dept. - Assuit University
  • 2018 - until now - Professor of Mathematics - Prince Sattam bin Abdulaziz University
  • 2014 - 2018 - Associate Professor of Mathematics - Prince Sattam bin Abdulaziz University
  • 2010 - 2014 - Associate Professor - Prince Sattam bin Abdulaziz University
  • 2009 - 2010 - Associate Professor - Assuit University
  • 2006 - 2009 - Lecturer of Mathematics - Assuit University

Responsibilities

  • Coordinator of the Quality Committee in the Mathematics Department, Prince Sattam Bin Abdulaziz University. Supervisor of the Department of Mathematics (2016-2018), Prince Sattam Bin Abdulaziz University. Field Training Unit Supervisor, Mathematics Department, Prince Sattam Bin Abdulaziz University Member of the Mathematics Department Committee for the Evolutionary Assessment Project at Prince Sattam Bin Abdulaziz University. Member of the Physical Mathematical Society (Cairo) from 2009 until now. Member of the Egyptian Mathematical Society from 2004 until now.

Publications

  • 2006
  • [1] A.-S. F. Obada, H. A. Hessian and A.-B. A. Mohamed, Sub-entropies and phase properties undergoing the effects of atomic motion for the Jaynes–Cummings model with initial mixed state input, International Journal of Quantum Information, 4 (2006) 871
  • 2007
  • [2] A.-S. F. Obada, F. A. Mohammed, H. A. Hessian and A.-B. A. Mohamed, Entropies and entanglement for initial mixed state in the multi-quanta JC model with the Stark shift and kerr-like medium, International Journal of Theoretical Physics, 46 (2007) 1027.
  • [3] A.-S. F. Obada, H. A. Hessian and A-B A Mohamed, Entropies and entanglement for decoherence without energy relaxation in a two-level atom, J. Phys. B: At. Mol. Opt. Phys. 40 (2007) 2241.
  • [4] A.-S. F. Obada, H. A. Hessian and A-B A. Mohamed, Entropy and entanglement in the mixed state for a dispersive JC model in a phase-damped cavity, Opt. Commun. 280 (2007) 230.
  • [5] A.-S. F. Obada, H.A. Hessian and A.-B. A. Mohamed, Effects of atomic motion on the entropies and entanglement for a JC model with a mixed state input,Chinese Journal of Physics 45 (2007) 447.
  • [6] Hosny A. Hessian and A.-B. A. Mohamed, Entropy and degradation of entanglement due to damping of the atomic decay in the Jaynes-Cummings model, International Conference on Mathematics Trends and Developments, (2007).
  • 2008
  • [7] A.-S. F. Obada, H. A. Hessian and A-B A. Mohamed, Combined effect of dissipation and thermal mixed state on entanglement in the dispersive limit, Chin. Phys. Lett. 25 (2008) 949.
  • [8] A.-S. F. Obada, H. A. Hessian and A.-B. A. Mohamed, The effects of thermal photons on entanglement dynamics for a dispersive Jaynes-Cummings model, Phys. Lett. A 372 (2008)3699.
  • [9] H. A. Hessian and A.-B. A. Mohamed, Entanglement and Phase properties for bimodal field interacting with a two level atom via Raman transition, J. Egypt Math. Soc. 16 (2008) 119.
  • [10] Hosny A. Hessian and A-B A. Mohamed, Entanglement and its dynamics with atomic spontaneous decay, Chin. Phys. Lett. 7 (2008) 24920.
  • [11] A.-S. F. Obada, H A Hessian and A-B A. Mohamed, Entropy and entanglement in the Jaynes–Cummings model with effects of cavity damping, J. Phys. B: At. Mol. Opt. Phys 41 (2008) 135503.
  • [12] A.-S. F. Obada, H A Hessian and A-B A. Mohamed, Effect of phase-damped cavity on dynamics of tangles of a non-degenerate two-photon JC model, Opt. Commun. 281 (2008) 5189.
  • [13] Corrigendum for "Entropies and entanglement for decoherence without energy relaxation in the two-level atom", A.-S. F. Obada, H A Hessian and A-B A. Mohamed, J. Phys. B: At. Mol. Opt. Phys. 41 (2008) 159801
  • [14] A.-S. F. Obada, H. A. Hessian and A-B A. Mohamed, Influence of phase damping on the entanglement for damped JC model in the pure and mixed states, Laser Physics, Vol. 18 (2008) 1111.
  • [15] Hosny A. Hessian and A-B A. Mohamed, Quasiprobability distribution functions for a single trapped ion interacting with mixed laser field, Laser Physics, 18 (2008)1217.
  • 2009
  • [16] A. Hessian, F. A. Mohammed, and A-B A. Mohamed, Entropy and entanglement in the master equation of effective Hamiltonian for J-C model, Commun. Theor. Phys. 51 (2009) 723.
  • [17] A.-S. F. Obada, H, A, Hessian and A-B. A. Mohamed, Effects of cavity damping on the entanglement for a three-level atomic system, J. Mod. Optics. 56 (2009) 881.
  • [18] A.-S. F. Obada, H. A. Hessian and A-B. A. Mohamed, Entropy growth induced by a squeezed field with a phase-damping reservoir, Int. J. Mod. Phys. 23 (2009) 4993.
  • 2010
  • [19] A.-S.F. Obada, H. A. Hessian , A-B A. Mohamed, Invariant dynamics of a superconducting qubit strongly coupled to a cavity field without energy relaxation, Physica E 42 (2010)1262.
  • [20] A.-S. F. Obada, H. A. Hessian, A-B A. Mohamed, Effect of atomic spontaneous decay on entanglement in the generalized Jaynes-Cummings model, Annals of Physics 325 (2010) 519.
  • [21] A.-S. F.Obada, H.A. Hessian, A-B A. Mohamed, Output entanglement from SU(1; 1) coherent states under nonlinear dissipation in the dispersive limit, J. Phys. A: Math. Theor. 43(2010)025305.
  • [22] Abdel Baset A. Mohamed, Long-time death of non-classicality of a cavity field interacting with a charge qubit and its own reservoir, Physics Letters A 374 (2010) 4115.
  • 2011
  • [23] A-B A. Mohamed, H. A. Hessian , A.-S. F. Obada, Entanglement sudden death of a SC-qubit strongly coupled with a quantized mode of a lossy cavity, Physica A 390 (2011) 519.
  • [24] Abdel Baset A. Mohamed, Entanglement death and purity loss forever in the dispersive interaction of a trapped ion and light without energy relaxation, International journal quantum information, 9 (2011) 519
  • [25] A. -B.A. Mohamed and A.-S.F. Obada, Asymptotic geometric phase and purity for phase qubit dispersively coupled to lossy LC circuit, Annals of Physics 326 (2011) 2369.
  • [26] A.-B.A. Mohamed, Loss of coherence of pure and mixed states for a multimode radiation field interacting nonlinearity with aqubit, Journal of Russian Laser Research, 32(2011) 518.
  • [27] A.-S.F. Obada, A.-B.A. Mohamed, Erasing information and purity of a quantum dot via its spontaneous decay, Solid State Communications, 151 (2011) 1824
  • [28] Abdel-Baset A. Mohamed, Effect of atomic spontaneous decay on dynamics of negativity of the Wigner function of radiation, Chin. Phys. B 20 (2011).
  • 2012
  • [29] A-B A. Mohamed, H A Hessian, Entanglement death and purity loss in a superconducting qubit coupled to a dephasing cavity, Physica E 44 (2012) 1552.
  • [30] A.-S. F. Obada, A.-B. A. Mohamed, Death of entanglement and non-locality in a SC qubit-field entangled state in a thermal reservoir, Optics Commun. 285 (2012) 3027.
  • [31] A.-B. A. Mohamed, Quantum correlation of correlated two qubits interacting with a thermal field, Phys. Scr. 85 (2012) 055013.
  • [32] A-B A. Mohamed, Quantifying quantumness with sudden birth or death of entanglement for two-qubits system, Int J Theor Phys (2012) 51:2779.
  • [33] A.-S. F. Obada, H. A. Hessian, A.-B. A. Mohamed, M. Hashem, Death of entanglement and purity in a two qubits-field system induced by phase damping, J Russ. Laser Research,33(2012) 32.
  • [34]A.S. F.Obada, H.A.Hessian, A.B. A.Mohamed, M.Hashem, Control of purity and entanglement for two spatially two-separated qubits via phase damping, Chin. Phys. B, 21 (2012) 100310
  • [35] Abdel-Baset A. Mohamed, Non-local correlation and quantum discord in two atoms in the non-degenerate model, Annals of Physics 327 (2012) 3130–3137.
  • [36]A.-S. F. Obada, H. A. Hessian, A.-B. A. Mohamed and M. Hashem, Wigner function and phase properties for a two-qubit field system under pure phase noise, J.Russ. Las. Res., 33 (2012) 32.
  • [37] A-S F Obada, H A Hessian, A-B A Mohamed and Ali H Homid, Quantum logic gates generated by SC-charge qubits coupled to a resonator, J. Phys. A: Math. Theor. 45 (2012) 485305
  • 2013
  • [38] Abdel-Baset A. Mohamed, Pairwise quantum correlations of a three-qubit XYchain with phase decoherence, Quantum Inf Process (2013) 12:1141.
  • [39] Abdel-Baset A. Mohamed, Quantum discord and its geometric measure with death entanglement in correlated deposing two qubit system, Quant. Inf. Rev. 1, No. 1 (2013) 1-7.
  • [40] Abdel Baset A. Mohamed, Pairwise correlations via quantum discord and its geometric measure in a four-qubit spin chain, Journal of the Egyptian Mathematical Society 21(2013) 68.
  • [41] A.S.F. Obada, H.A.Hessian, A.B.A. Mohamed and M. Hashem, Influence of the phase damping for two-qubits system in the dispersive reservoir, Quantum Inf Process (2013) 12 1947.
  • [42] A.-S.F. Obada, H.A. Hessian, A.-B. A. Mohamed, Ali H. Homid, A proposal for the realization of universal quantum gates via SC qubits inside a cavity, Ann. Phys. 334 (2013) 47.
  • [43] A.-S.F. Obada, H.A.Hessian , A.-B.A.Mohamed, Ali H.Homid, Implementing discretequantum Fourier transform via SC qubits coupled to a superconducting cavity, J.Opt. Soc.Am 30 (2013) 1178
  • [44] A.-B. A. Mohamed, Geometric measure of non-locality and quantum discord of two charge-qubits with phase decoherence and dipole-dipole interaction, Rep. on Math. Phys., 72 (2013) 1.
  • [45] Abdel Baset A. Mohamed, Measurement-induced nonlocality and geometric quantum discord in two SC-charge qubits, Optik 124 (2013) 5369.
  • [46] A.-S.F. Obada and A.-B. A. Mohamed, Quantum correlations of two non-interacting ion's internal electronic states with intrinsic decoherence, Optics Communications 309 (2013) 236.
  • [47] M. S. Abdalla , A.-S. F. Obada, E. M. Khalil, A.-B. A. Mohamed, Entanglement of a cavity field interacting with a superconducting charge qubit, Prog. Theor. Exp. Phys. (2013) 083A01.
  • [48] A.-S. F.Obada, S. Abdel-Khalek, A.-B. A.Mohamed, Information entropy and entanglement of a SC qubit coupled to a cavity field with its spontaneous decay, Opt Quant Electron 45(2013) 1287.
  • 2014
  • [49] A.-S. F.Obada, H. A. Hessian, A.-B. A. Mohamed, Ali H. Homid, Efficient protocol of N-bit discrete quantum Fourier transform via transmon qubits coupled to a resonator, Quantum Inf. Process, 13 (2014) 1947.
  • [50]M. S. Abdalla, A.-S.F. Obada, E M.Khalil, A.-B. A. Mohamed, Wehrl entropy information and purity of a SC charge qubit interacting with a lossy cavity field, Solid State Commu. 184 (2014) 56.
  • [51] M.S.Abdalla, A.-S.F.Obada, A.-B.A.Mohamed, E. M. Khalil,Purity and Correlation of Cavity Field Interacting with a SC Charge Qubit with a Lossy Cavity, Int J Theor Phys (2014) 531325.
  • [52] H. A.Hessian, A.-B. A.Mohamed, Purity Loss and Degradation of qubit-Field Correlations and Entanglement Due to Phase Noise in Nonlinear Interaction,Opt. and Spectroscopy,117 (2014) 474.
  • [53] A-B A Mohamed, A Joshi and S S Hassan, Bipartite non-local correlations in a double quantum-dot excitonic system, J. Phys. A: Math. Theor 47 (2014) 335301.
  • 2015
  • [54] A.-S. F. Obada, H.A. Hessian, A.-B.A. Mohamed and M. Hashem, Stationary discord and non-local correlations via qubit damping, Journal of Modern Optics, 62, (2015) 918.
  • [55] A. S.F. Obada, H.A.Hessian, A.-B.A.Mohamed and M.Hashem, Effects of a phase-damping cavity on entanglement and purity loss in two-qubit system, Quant. Inf. Process, 14 (2015) 2043.
  • [56] A.-B. A. Mohamed, Control of Quantum and Classical Correlations in Werner-Like States of Two-Qubit Cavity System under Dissipative Environments, Appl. Math. Inf. Sci., 9 (2015) 2997.
  • [57] A.-B. A. Mohamed and H. Eleuch, Geometric phase in cavity QED containing a nonlinear optical medium and a quantum well, Journal of Modern Optics, 62, (2015), 1630.
  • [58] A.-B.A. Mohamed and H. Eleuch, Non-classical effects in cavity QED containing a nonlinear optical medium and a quantum well: Entanglement and non-Gaussanity, Eur. Phys. J.D (2015) 69191.
  • [59] A.-S. F.Obada, H. A.Hessian, A.-B.A. Mohamed and M.Hashem, Effect of the phase damping of two qubits on both the quantum discord and non-local correla- ation, Optik 126 (2015) 3432.
  • [60] H. A.Hessian, A.-B. A. Mohamed and A. H. Homid, Dispersive reservoir influence on the superconducting phase qubit, Int. J. Quantum Information, 13 (2015) 1550056.
  • 2016
  • [61] A.-B. A. Mohamed, A. Joshi, S. S. Hassan, Enhancing nonlocal correlations in the bipartite partitions of two qubit-system with non-mutual Interaction, Annals of Physics, 366 (2016) 32.
  • [62] A.-B.A. Mohamed, Hichem Eleuch, Wehrl Information and Mixedness of a Cooper-pair Box Coupled to a Cavity in a Thermal Reservoir, J. of the Korean Physical Society, 68 (2016) 513.
  • [63] A.-B. A. Mohamed, H. Eleuch, Entanglement and mixedness of a superconducting qubit coupled to an open superconducting cavity, J. Russ. Las. Res., 37 (2016) 319.
  • [64] A.-B. A. Mohamed, Thermal effect on the generated quantum correlation between two superconducting qubits, Laser Phys. Lett. 13 (2016) 085202.
  • 2017
  • [65]A.-B. A. Mohamed, H.A.Hessian, Nonclassical correlations in the general state of two SC-qubit with a phase damping: non-local correlation and geometric discord, J. Modern Opt. 64 (2017)521.
  • [66] A.-B. A. Mohamed and H. Eleuch, Coherence and information dynamics of a Λ-type three-level atom interacting with a damped cavity field, Eur. Phys. J. Plus 132 (2017) 75.
  • [67] A.-B.A.Mohamed, H. Eleuch, H. A. Hessian, Stationary phase space information in a qubit interacting nonlinearly with a lossy single-mode field in the off-resonant case, Opt Quant Electron (2017) 49:84
  • [68] A.-B. A. Mohamed, H. A. Hessian, Effects of thermal reservoir on the qubit squeezing of artificial atomic qubits inside the cavity, Optik 133 (2017) 80.
  • [69] A.-B. A. Mohamed and H. Eleuch, Quantum correlations control for two semiconductor microcavities connected by an optical fiber, Phys. Scr. 92 (2017) 065101.
  • [70] A.-B. A. Mohamed and N. Metwally, Non-classical correlations based on skew information of entangled two qubit-system with non-mutual interaction under a intrinsic decoherence, Ann. of Phys. 381 (2017) 137.
  • [71] A.-B. A. Mohamed, M. S. Abdalla A.-S. F. Obada, Quantum effects due to the interaction between Su(1,1) and Su(2)quantum systems with damping,Eur. Phys. J. D 71 (2017) 223
  • [72] A. -B. A. Mohamed, Non-local correlations via Wigner-Yanase skew information in two SC-qubit having mutual interaction under phase decoherence, Eur. Phys. J. D (2017).
  • 2018
  • [73] A.-B. A. Mohamed, H.Eleuch, Generation and robustness of bipartite nonclassical correlations in two nonlinear microcavities coupled by an optical fiber, Opt. Soc. Am. B, 35 (2018) 47.
  • [74] A-B A Mohamed, Phase space information in a non-linear quantum system containing a Kerr-like medium through Su(1,1)-algebraic treatment, J Mod. Opt., 65 (2018) 960.
  • [75] A-B A Mohamed, Bipartite non-classical correlations for a lossy two connected qubit-cavity systems: Trace distance discord and Bell's non-locality,Quantum. Inf. Process. 17 (2018) 96.
  • [76] A.-B. A. Mohamed and N. Metwally, Nonclassical features of two SC-qubit system interacting with a coherent SC-cavity, Phyisca E 102 (2018) 1–7
  • [77] A.-B. A.Mohamed, H. Eleuch, Stationary quantum correlation and coherence of two-mode Kerr nonlinear coupler interdicting with Su(2system under intrinsic damping, J.Mod.Opt.65 (2018)2213.
  • [78] A.-B . A. Mohamed, M. Hashem, The behavior of the generated quantum correlations in two-SC-qubit system strongly coupled with a SC cavity in the presence of local noise, Quantum. Inf. Process. 17 (2018) 217.
  • [79] A.-B. A. Mohamed, M. Sebawe Abdalla and A.-S. F. Obada, The effect of damping on a quantum system containing Kerr-like medium, Eur. Phys. J. Plus (2018) 133: 190.
  • [80] A.-B. A. Mohamed, M. Hashem, Entropy Squeezing of a qubit interdicting with two-mode Kerr nonlinear coupler due to intrinsic damping, Int. J. Theor. Phys. 57 (2018) 2968–2977.
  • [81] A.-B. A. Mohamed, A.-S. F.Obada, Non-Classical Correlations In Two Quantum Dots Coupled In a Coherent Resonator-Field Under Decoherence, Quantum. Inf. Process., (2018) 17:277
  • [82] A.-B. A. Mohamed, M. Sebawe Abdalla and A.-S. F. Obada, Robustness of quantum correlations in an non-mutual interacting two Su(2)-systems with Su(1,1) and intrinsic decoherence, Open Systems & Information Dynamics, 25 (2018) 1850015.
  • 2019
  • [83] A.-B. A. Mohamed,, H. Eleuch, Effect of dissipation and dipole–dipole interplay on Hilbert–Schmidt distance and Bell’s inequality correlations of two qubits interacting with two-mode cavity field. Phys. Scr. 94(2019) 045102.
  • [84] A.-B. A. Mohamed, N. Metwally, Enhancing Non-Local Correlations In a Dissipative Two-Qubit System Via Dipole-Dipole Interplay, Quantum Inf. Processing 18 (2019) 79.
  • [85] A.-B. A. Mohamed, S. S. Hassan, R. A. Alharbey, Information phase space and entropy squeezing in a 2-Photon 2-Level Atom Model, Entropy, 21 (2019) 147.
  • [86] A.-B. A. Mohamed, N. Metwally, Quantum correlation dynamics based on Skew information and Bell function in two coupled qubits nonlinearly interacting with a coherent field, Eur. Phys. J. Plus, 134 (2019) 92.
  • [87] A.-B. A. Mohamed, H. Eleuch, Dynamics of Skew-Information and Bell’s Inequality
  • Correlations for Two Coupled Dipole Qubits with 2-Photon Transition, IJTP 58 (2019) 1698.
  • [88] A. H. Homid, M.R. Sakr, A.-B.A. Mohamed, M. Abdel-Aty, A.-S. F. Obada, Rashba control to minimize circuit cost of the quantum Fourier algorithm in ballistic nano-wires, Phys. Lett. A. (2019)
  • [89] A.-B. A. Mohamed, A. H. Homid, M. Abdel-Aty, H. Eleuch , Trace-norm Correlation beyond entanglement in InAs Nanowire System With Spin-Orbit Interaction and External Electric Field, Journal of the Optical Society of America B 36 (2019) 926.
  • [90] A.-B. A. Mohamed, M. Hashem and H. Eleuch, Enhancing the generated stable correlation in a dissipative system of two coupled qubits inside a coherent cavity via their dipole-dipole interplay, Entropy 2019, 21, 672
  • [91] A.-B. A. Mohamed, H. A. Hessian, Quantum Correlation and Coherence in Dissipative Two SC-Qubit Systems Interacting with a Coherent SC-Cavity, ITJP 58 (2019) 1698.
  • [92] A.-B. A. Mohamed and H. Eleuch, Skew information correlations beyond entanglement in dissipative two Su(2)-systems, Results in Physics 15 (2019) 102614.
  • [93] A.-B. A. Mohamed and H. Eleuch, C. H. Raymond, Quantum coherence and entanglement partitions for two driven quantum dots inside a coherent microcavity, Phys. Lett. A 383 (2019)125905
  • [94] A-B A Mohamed, H. A. Hessian and H. Eleuch, Robust correlations of a dissipative two qubit-system interacting with two coupled fields in a non-degenerate parametric amplifier, Quantum Inf. Process 18 (2019) 327.
  • [95] A-B A Mohamed and H. Eleuch, Nonclassical Correlations Beyond Bell's Inequality Violation In Two Qubits Interact With a Coherent Harmonic Oscillator Due to intrinsic Noise, Results in Physics 15 (2019) 102780
  • [96] A.-B. A.Mohamed, H. Eleuch, A.-S. F. Obada, Influence of the Coupling between Two Qubits in an Open Coherent Cavity: Nonclassical Information via Quasi-Probability Distributions, Entropy 21 (2019) 1137.
  • [97] A.-B. A. Mohamed and H. Eleuch, C. H. Raymond Ooi, Non-locality Correlation in Two Driven Quantum Dots Inside an Open Coherent Microcavity:Truce norm distance and the maximum Bell function, Scientific Reports (2019) 9 19632
  • 2020
  • [98] Dynamics of dissipative two-qubit system interacting non-linearly with a generalized field: Entanglement and mixedness , A-B A Mohamed, H. A. Hessian and H. Eleuch Optik 202 (2020) 163500
  • [99] A.-S. F. Obada, A.-B. A. Mohamed, M. Hashem, and M. M. Elkhateeb, Effect of intrinsic noise on bipartite non-classical correlations for superconducting qubits coupled via a cavity bus, Physica E 117 (2020) 113854
  • [100] A.-B. A. Mohamed, I. Masmali, Control of the Geometric Phase in Two Open Qubit–Cavity Systems Linked by a Waveguide,. Entropy 2020, 22, 85.
  • [101] Quantum effects in two-qubit systems interacting with two-mode fields: Dissipation and dipole-dipole interplay effects, A.-B. A.Mohamed, H. Eleuch, A.-S. F. Obada, Results in Phy.17(2020) 103019
  • [102] , A-S F Obada, A-B A Mohamed, M Hashem and M M Elkhateeb, Trace distance discord and Bell-function correlations beyond entanglement in two SC-qubits interacting with a dissipative SC-cavityLaser Phys. 30 (2020) 055203.
  • [103] A .-B.A . Mohamed, H.A. Hessian, H. Eleuch, Quantum correlations of two qubits beyond entanglement in two lossy cavities linked by a waveguide Chaos, Solitons and Fractals 135 (2020) 109773.
  • [104] C. Park, M. M.A. Khater, A.-H. Abdel-Aty R. A.M. Attia, H.Rezazadeh , A. M. Zidan, A.-B. A. Mohamed, Dynamical analysis of the nonlinear complex fractional emerging telecommunication model with higher–order dispersive cubic–quantic, Alexandria Engineering Journal (2020) 59, 1425.
  • [105] A-B. A. Mohamed, M. Hashem M. M. Elkhateeb , A.-S. F. Obada, Generating Non-Locality Correlation via 2-Photon Resonant Interaction of Dissipative Two-Qubit System with Coherence Field, . Eur. Phys. J. D 74 (2020) 130.
  • [106] A-B A Mohamed, H. A. Hessian and H. Eleuch, Generation of quantum coherence in partitions of two-qubit cavity system: Qubit-dipole coupling and decoherence effects, Phys. Scr. 95 (2020) 075104
  • [107] A.-B. A. Mohamed , Ahmed Farouk, M. F. Yassen, H. Eleuch. Quantum correlation via skew information and Bell function beyond entanglement in a two-qubit Heisenberg XYZ model: Effect of the phase damping, Appl. Sci. 2020, 10, 3782.
  • [108] O. Abu Arqub, M. S. Osman, A.H Abdel‐Aty, A.‐B. A. Mohamed and S. Momani, A numerical algorithm for the solutions of ABC singular Lane-Emden type models arising in astrophysics using reproducing kernel discretization method, Mathematics 2020, 8, 923.
  • [109] A.-S. F. Obada, A.-B. A. Mohamed, M.Hashem, and M.M.Elkhateeb, Dynamics of quantum coherence and entanglement in an intrinsic noise model of a V-type qutrit system interacting with a coherent field, Physica Scripta 95 (2020) 085101.
  • [110] A.-B. A.Mohamed, I. Masmali, A.-S. F. Obada, Bell-Inequality and Skew-Information Non-Localities in Two Lossy Cavity-Qubit Systems Linked bya Waveguide, Alexandria Engineering Journal (2020) 59, 2785.
  • [111] A.-B. A. Mohamed and H. Eleuch, Nonclassical Effects Based on Husimi Distributions in Two Open Cavities Linked by an Optical Waveguide, Entropy 2020, 22, 767.
  • [112] A.-B. A.Mohamed, H. Eleuch Quasi-probability information in an open coupled two-qubit system interacting non-linearly with a coherent cavity, Scientific Reports 10 (2020) 13240
  • [113] A.-B.A.Mohamed, A. Farouq, H. Eleuch, Dynamics of Coupled Two Qubits interacting with Open Two-Photon Transitions via Non-degenerate Parametric Amplifier: Non-local Correlations, Journal of the Optical Society of America B 37 (2020) 1.
  • [114] A.-S. F. Obada, A.-B. A. Mohamed, M. Hashem, and M. M. Elkhateeb, Enhancing quantum effects of a qutrit interacting nonlinearly with a open coherent field filled
  • with a Kerr-like medium, Modern Physics Letters A, 35 (2020) 2050287
  • [115] A.-B. A. Mohamed, A. Farouk , A.-H. Abdel Aty and H. Eleuch , Robustness of Generated Geometric Phase of Quantum Wells in Two Open Waveguide-Coupled Optical Cavities, IEEE Access 8 (2020) 158745.
  • [116] A.-B. A. Mohamed, E. M. Khalil, A.-S. F. Obada, H. Eleuch, Nonclassical effects for a qubit coupled to a coherent two-mode cavity with ntrinsic decoherence, Results in Physics 19 (2020) 103370
  • [117] S. Abdel-Khalek, E.M. Khalil, A.-B.A. Mohamed, J.H. Bouslimi, Hatem R. Besbes, Effects of a high nonlinear interaction between an open parametric amplifier cavity and a qubit on dynamics of the correlation function and quantum Fisher information, Solid State Commun. 322 (2020) 114075.
  • [118]A. H.Abdel Aty, H. Kadry, A. B. A. Mohamed and Hichem Eleuch, Correlation dynamics of nitrogen vacancy centers located in crystal cavities Scientific Reports 10 (2020) 16640
  • [119] Effect of Stark shift on nonlocal correlation of two atoms in a cavity containing a parametric amplifier and a Kerr like medium, A.-B. A. Mohamed, E.M.Khalil, Eur.Phys.J.Plus 135(2020) 793.
  • [120] A.-B. A. Mohamed, S. Abdel-Khalek, and A.-S. F. Obada, Nonlinear Dynamics of a Cavity Containing a Two-Mode Coherent Field Interacting with Two-Level Atomic Systems, E. M. Khalil, Hashim M. Alshehri, Appl. Sci.10 (2020) 7150.
  • [121] E. M. Khalil, A.-B. A. Mohamed, A.-S. F. Obada, H. Eleuch, Quasi-Probability Husimi-Distribution Information and Squeezing IN a Qubit-System Interacting with a Two-Mode Parametric Amplifier cavity, Mathematics 8 (2020) 1830.
  • [122] S. Abdel-Khalek, E.M. Khalil, A.-B.A. Mohamed, M. Abdel-Aty, H.R. Besbes, Response of quantum Fisher information, variance entropy squeezing and entanglement to the intrinsic decoherence of two non-degenerate field interacting with two qubits, Alexandria Engineering Journal (2020) 59, 5147–5154
  • [123] R. A. Abdelghany, A.-B. A. Mohamed, M. Tammam, A.-S. F. Obada, Dynamical characteristic of entropic uncertainty relation in the long-range Ising model with an arbitrary magnetic field, Quantum Information Processing 19 (2020) 392.
  • [124] Mostafa M.A. Khater, Raghda A.M. Attia, Emad E. Mahmoud, Abdel-Haleem Abdel-Aty, Kholod M. Abualnaja, A.-B.A. Mohamed, Hichem Eleuch, On the interaction between (low & high) frequency of (ion-acoustic & Langmuir) waves in plasma via some recent computational schemes, Results in Physics 19 (2020) 103684.
  • 2021
  • [125] A.-B. A.Mohamed, M. Abdel-Aty, H. Eleuch, Bures and trace-distance correlations of quantum wells in open microcavities linked by an optical waveguide, Optik 225 (2021) 165744
  • [126] A.-B. A. Mohamed, E. M. Khalil and S. Abdel-Khalek, Non-local correlation btween two coupled qubits interacting nonlinearity with an two-mode cavity: Bell function, Trace norm and Bures distance quantifiers, Phys. Scr. 96 (2021) 025103
  • [127] . M. Khalil, A.-B. A. Mohamed, S.K.Elagan Nonlinear optical tomography of q-deformed entangled pair coherent states, Results in Physics 20 (2021) 103720
  • [128] A.-B.A.Mohamed, A.-H. Abdel-Aty, H. Eleuch, Dynamics of trace distance and Bures correlations in an open three-qubit XY chain: Intrinsic noise model, Physica E 128 (2021) 114529
  • [129] E. M. Khalil, A.-B. A. Mohamed, Dynamics of entanglement and mixture in parametric amplifier cavity contained two qubits: Kerr medium and Stark shift effects, Mod. Phys. Lett. A, 2150037 (2021).
  • [130] A.B. A.Mohamed, H. A. Hessian, Non-classicality of two superconducting-qubits interacting independently with a resonator cavity: Trace-norm correlation and Bures-distance entanglement, Journal Of Modern Optics, (2021) 68, 1–9
  • [131] A.-S. F. Obada, M.M.A. Ahmed, M. Abu-Shady, E.M. Khalil, A.-B. A. Mohamed and H. F. Habeba. A nonlinear interaction between SU(1,1) quantum system and a three-level atom in different configurations with damping term, Phys. Scr. 96 (2021) 045105
  • [132] A.-B.A. Mohamed, E.M. Khalil, M.M. Selim, H. Eleuch. Optical tomography dynamic for time-dependent coherent states generated by an open qubit-cavity system, Results in Physics 22 (2021) 103940
  • [133] A.-B. A. Mohamed, H. Eleuch, Quantum Fisher Information and Bures Distance Correlations of Coupled Two Charge-Qubits Inside a Coherent Cavity with the Intrinsic Decoherence, Symmetry 2021, 13, 352
  • [134] A.-B. A. Mohamed, E. M. Khalil, M. F. Yassen and H. Eleuch, Two-qubit local Fisher information correlation beyond entanglement in a nonlinear generalized cavity with an intrinsic decoherence, Entropy 2021, 23, 311
  • [135] A.-B. A. Mohamed, H. A. Hessian, Non-classicality in an open two-mode parametric amplifier cavity containing a Λ-qutrit system, Phys. Scr. 96 (2021) 055102.
  • [136] A.-B. A. Mohamed, H. A. Hessian A.-S. F. Obada, Nonclassical effects in a nonlinear two trapped-particles system under intrinsic decoherence, Chaos, Solitons and Fractals 146 (2021) 110857
  • [137] A.-B. A. Mohamed, N. Metwally, Quantifying the non-classical correlation of a two-atom system nonlinearly interacting with a coherent cavity: local quantum Fisher information and Bures distance entanglement, 2021
  • [138] A.-B. A. Mohamed, H. A. Hessian A.-S. F. Obada, Dynamics of nonclassical properties of a SU(3) system interacting with two open parametric amplifier modes, J. Opt. Soc. Am. B 38, 1556-1563 (2021).
  • [139] A.-B. A. Mohamed, H. A. Hessian, Intrinsic decoherence effect on quantum coherence dynamics of a qutrit interacting resonantly with a coherent cavity field /Quantum effects in a qutrit interacting resonantly with a coherent cavity field under decoherence, Eur. Phys. J. Plus (2021) 136:389
  • [140] A.-B. A. Mohamed and H. Eleuch, Entanglement Dynamics Induced by a Squeezed Coherent Cavity Coupled Nonlinearly with a Qubit and Filled with a Kerr-Like Medium, Entropy 2021, 23, 496
  • [141] A.-B. A. Mohamed, E. M. Khalil, M. Yossif , Nonclassical atomic system dynamics time-dependently interacts with finite entangled coherent parametric converter cavity fields, Optical and Quantum Electronics (2021) 53:344 000666860500001
  • [142] Two-qubit non-locality interacting time-dependently with a parametric amplifier cavity with Stark-shift nonlinearity, Abdel-Baset A. Mohamed, Afrah Y. AL-Rezami, Abdel-Haleem Abdel-Aty, Alexandria Engineering Journal (2021) 60, 5649.
  • [143] A.-B. A. Mohamed, E. M. Khalil, A. Y. AL-Rezami1 and H. Eleuch, Wigner function non-classicality induced in a charge qubit interacting with a dissipative field cavity, Symmetry 2021, 13, 802.
  • [144] Dynamics of quantum effects of a qubit time-dependently interacting with finite entangled
  • coherent cavity fields , A.-B. A. Mohamed, E. M. Khalil, Eur. Phys. J. Plus (2021) 136:632000661819300010
  • [145] Tripartite entropic uncertainty relation under phase decoherence, R. A. Abdelghany, A.-B. A. Mohamed, M. Tammam, and H. Eleuch Scientifc Reports (2021) 11:11830

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