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2019
Bahloul A, Djebara A, Saidi MN, Songmene V, Villalpando F, Reggio M. Computational and experimental analysis of ultrafine particle dispersion during granite polishing. Aerosol Science and EngineeringAerosol Science and Engineering. 2019;3 :21-31.
Bahloul A, Djebara A, Saidi MN, Songmene V, Villalpando F, Reggio M. Computational and experimental analysis of ultrafine particle dispersion during granite polishing. Aerosol Science and EngineeringAerosol Science and Engineering. 2019;3 :21-31.
Bahloul A, Djebara A, Saidi MN, Songmene V, Villalpando F, Reggio M. Computational and experimental analysis of ultrafine particle dispersion during granite polishing. Aerosol Science and EngineeringAerosol Science and Engineering. 2019;3 :21-31.
Bahloul A, Djebara A, Saidi MN, Songmene V, Villalpando F, Reggio M. Computational and experimental analysis of ultrafine particle dispersion during granite polishing. Aerosol Science and EngineeringAerosol Science and Engineering. 2019;3 :21-31.
Bahloul A, Djebara A, Saidi MN, Songmene V, Villalpando F, Reggio M. Computational and experimental analysis of ultrafine particle dispersion during granite polishing. Aerosol Science and EngineeringAerosol Science and Engineering. 2019;3 :21-31.
Tamersit K, DJEFFAL F. A computationally efficient hybrid approach based on artificial neural networks and the wavelet transform for quantum simulations of graphene nanoribbon FETs. Journal of Computational ElectronicsJournal of Computational Electronics. 2019;18 :813-825.
Tamersit K, DJEFFAL F. A computationally efficient hybrid approach based on artificial neural networks and the wavelet transform for quantum simulations of graphene nanoribbon FETs. Journal of Computational ElectronicsJournal of Computational Electronics. 2019;18 :813-825.
Mezzoudj S, Behloul A, Rachid S, Saadna Y. Computer and information sciences. J. King Saud UniversityJ. King Saud University. 2019.
Mezzoudj S, Behloul A, Rachid S, Saadna Y. Computer and information sciences. J. King Saud UniversityJ. King Saud University. 2019.
Mezzoudj S, Behloul A, Rachid S, Saadna Y. Computer and information sciences. J. King Saud UniversityJ. King Saud University. 2019.
Mezzoudj S, Behloul A, Rachid S, Saadna Y. Computer and information sciences. J. King Saud UniversityJ. King Saud University. 2019.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
Gadda A, BEDRA S, Agaba C, BENKOUDA S, BEDRA R, FORTAKI T. Computer-Aided Design of Superconducting Equilateral Triangular Patch on Anisotropic Substrates. Progress In Electromagnetics Research MProgress In Electromagnetics Research M. 2019;86 :203-211.
ARAB FATIHA. CONCEPTION D’UN AMPLIFICATEUR OPERATIONNEL ℡ESCOPIQUE EN TECHNOLOGIE CMOS 130NM. 2019.
Souraya B. Conception d’un Convertisseur Analogique Numérique Flash 3 Bits en Technologie CMOS 130nm. 2019.
Eddine MD. Conception et réalisation d&⋕39;une antenne microruban opérant à la fréquence 2,4 GHz. 2019.

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