
Md F. Islam
Assistant ProfessorPhysics
Dr. Islam is a theoretical condensed matter physicist with focus on studying topological quantum phases of matter and magnetic nanostructure. His research in recent years is focused on understanding electronic and magnetic properties of different types of topological materials that can host exotic quantum phases such as Chern insulator and Axion insulator, and their potential application as quantum devices. His research interest also includes studying single molecule magnets as qubits for quantum information processing. In particular, he is interested in studying electric manipulation of spins in frustrated magnetic molecules. Furthermore, his current research is also focused on studying transport properties of molecules for single electron transistor applications.
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Term | Course | Section | Syllabus |
---|---|---|---|
Spring 2025 | PHYS 6296 - Doctoral research | 28047 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24357 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24359 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24362 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24364 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24365 | |
Spring 2025 | PHYS 2320 - Introductory Mechanics | 24366 | |
Spring 2025 | PHYS 2120 - Laboratory for PHYS 2320 | 24371 | |
Spring 2025 | PHYS 2120 - Laboratory for PHYS 2320 | 24372 | |
Spring 2025 | PHYS 2120 - Laboratory for PHYS 2320 | 24373 | |
Spring 2025 | PHYS 2120 - Laboratory for PHYS 2320 | 24374 | |
Spring 2025 | PHYS 2120 - Laboratory for PHYS 2320 | 24375 |
No info available.
No info available.
Dr. Islam is a theoretical condensed matter physicist with focus on studying topological quantum phases of matter and magnetic nanostructure. His research in recent years is focused on understanding electronic and magnetic properties of different types of topological materials that can host exotic quantum phases such as Chern insulator and Axion insulator, and their potential application as quantum devices. His research interest also includes studying single molecule magnets as qubits for quantum information processing. In particular, he is interested in studying electric manipulation of spins in frustrated magnetic molecules. Furthermore, his current research is also focused on studying transport properties of molecules for single electron transistor applications.
No info available.
No info available.
No info available.
No info available.