Ashraf A. Abul-Magd scite author profile

Ashraf A. Abul-Magd

5Publications

58Citation Statements Received

51Citation Statements Given

How they've been cited

216

How they cite others

217

Affiliations

Sinai University

Publications

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Unfolding of the spectrum for chaotic and mixed systems

Abul-Magd

2014

Physica A: Statistical Mechanics and its Applications

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Random Matrix Theory (RMT) is capable of making predictions for the spectral fluctuations of a physical system only after removing the influence of the level density by unfolding the spectra. When the level density is known, unfolding is done by using the integrated level density to transform the eigenvalues into dimensionless variables with unit mean spacing. When it is not known, as in most practical cases, one usually approximates the level staircase function by a polynomial. We here study the effect of unfolding procedure on the spectral fluctuation of two systems for which the level density is known asymptotically. The first is a time-reversal-invariant chaotic system, which is modeled in RMT by a Gaussian Orthogonal Ensample (GOE). The second is the case of chaotic systems in which m quantum numbers remain almost undistorted in the early stage of the stochastic transition. The Hamiltonian of a system may be represented by a block diagonal matrix with m blocks of the same size, in which each block is a GOE. Unfolding is done once by using the asymptotic level densities for the eigenvalues of the m blocks and once by representing the integrated level density in terms of polynomials of different orders. We find that the spacing distribution of the eigenvalues shows a little sensitivity to the unfolding method. On the other hand, the variance of level number Σ 2 (L)is sensitive to the choice of the unfolding function. Unfolding that utilizes low order polynomials enhances Σ 2 (L) relative to the theoretical value, while the use of high order polynomial reduces it. The optimal value of the order of the unfolding polynomial depends on the dimension of the corresponding ensemble.

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Ascendancy of Cr3+ on Cr6+ valence state and its effect on borate glass environment through CdO doping

Morshidy

Mohamed

Abul-Magd

et al. 2022

Materials Chemistry and Physics

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Influence of La2O3 on the structural, mechanical and optical features of cobalt doped heavy metal borate glasses

Abul-Magd

Abu-Khadra

Abdelghany

2021

Ceramics International

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Reevaluation of Cr6+ optical transitions through Gd2
Morshidy
¹
,
El-Fattah
²
,
Abul-Magd
³

et al. 2021
Optical Materials
77
0
7
0
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Influence of La3+ ions on the structural, optical and dielectric properties and ligand field parameters of Fe3+ hybrid borate glasses

Abul-Magd

Abu-Khadra

Taha

et al. 2023

Journal of Non-Crystalline Solids

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