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  1. الرئيسية /
  2. أعضاء هيئة التدريس /

أ.د.عبدالباسط عبدالحميد محمد محمد

Professor of Mathematics, Prince Sattam Bin Abdulaziz أستاذ قسم الرياضيات كلية العلوم والدراسات الانسانية بالأفلاج
  • الأفلاج
  • 011-588-0561879253
  • a.mohamed@psau.edu.sa
  • السيرة الذاتية
  • الأبحاث العلمية

المؤهلات العلمية

  • • بكالوريوس العلوم في الفيزياء 1996 م بتقدير عام جيد • بكالوريوس العلوم في الرياضيات 2002 م بتقدير عام جيدا جدا • درجة الماجستير في الرياضيات 2006م • درجة الدكتوراه في الرياضيات 2009م

الاهتمامات البحثية

  • Applied Mathemarics- Quantum Infromation

الخبرات

  • 2018 - حتى الآن - استاذ - جامعة الامير سطام بن عبدالعزيز
  • 2014 - 2018 - استاذ مشارك - جامعة الامير سطام بن عبدالعزيز
  • 2010 - 2014 - استاذ مساعد - جامعة الامير سطام بن عبدالعزيز
  • 2009 - 2010 - استاذ مساعد - جامعة أسيوط
  • 2002 - 2006 - معيد - جامعة أسيوط

مهام ومسؤوليات

  • 1- منسق لجنة جودة قسم الرياضيات 2- مشرف قسم الرياضيات بقسم الرياضيات كلية العلوم والدراسات الانسانيه بالافلاج2018-2016 2- مشرف وحدة التدريب الميداني بقسم الرياضيات كلية العلوم والدراسات الانسانيه بالافلاج 3- عضو في لجنة مساريع التخرج بكلية العلوم والدراسات الانسانيه بالافلاج 4- عضو في لجنة قسم الرياضيات لمشروع التقويم التطوري بكلية العلوم والدراسات الانسانيه بالافلاج 5- منسق برنامج الدراسات العليا للجوده والاعتماد لكلية العلوم الحاصله علي الاعتماد 14\6\2011م –جامعة اسيوط 6 - عضو في الجمعية الرياضية الفيزيائية( القاهرة) من 2009 وحتى الان 7-عضو في جمعية الرياضيات المصرية بداية من 2004 وحتى الان

الأبحاث العلمية

  • 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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