M. Gençaslan Et Al. , "Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach," PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425, 2023
Gençaslan, M. Et Al. 2023. Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach. PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425 .
Gençaslan, M., Özlü, M., & Keskin, M., (2023). Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach. PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425.
Gençaslan, Mustafa, MUSTAFA ÖZLÜ, And Mustafa Keskin. "Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach," PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425, 2023
Gençaslan, Mustafa Et Al. "Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach." PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425, 2023
Gençaslan, M. Özlü, M. And Keskin, M. (2023) . "Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach." PHYSICA STATUS SOLIDI (B): BASIC RESEARCH , vol.260, no.202200425.
@article{article, author={Mustafa Gençaslan Et Al. }, title={Dynamic Magnetic Features of a Mixed‐Spin‐2 and Spin‐5/2 Ising Ferrimagnetic System under a Time‐Dependent Oscillating Magnetic Field: Path Probability Method Approach}, journal={PHYSICA STATUS SOLIDI (B): BASIC RESEARCH}, year=2023}