DEPARTMENT.FACULTY
- DEPARTMENT_STAFF.QUALIFICATION
Ph.D. (Theoretical Condensed Matter Physics )
- DEPARTMENT_STAFF.DESIGNATION
Guest Faculty
- DEPARTMENT_STAFF.THRUST_AREA
Condensed Matter Physics, Electron-Phonon Interactions in Low-Dimensional Systems, Graphene and its Bilayer
- DEPARTMENT_STAFF.ADDRESS
Near Majaz Masjid, Behind Jamia Urdu, Civil lines, Aligarh, UP-202002
- DEPARTMENT_STAFF.MOBILE
7017750719
- DEPARTMENT_STAFF.EMAIL
meenhazphysics@gmail.com
Dr. Mohd Meenhaz Ansari has received M.Sc (Physics), M. Tech (Nanotechnology) and Ph.D. degree from Aligarh Muslim University, Aligarh, India. He is a recipient of the Maulana Azad National Fellowship from the University Grants Commission, India. Prior joining the Department of Physics, he has completed three years tenure as Research Associate, awarded by CSIR, at the Interdisciplinary Nanotechnology Centre, AMU.
His research experience encompasses analytical and computational techniques for the study of electronic and thermal transport properties of low dimensional systems specially Single and Bilayer Graphene, and Silicene. He has published several research papers in reputed international journals such as Journal of Physics: Condensed Matter, Journal of Applied Physics, Physica E: Low-dimensional Systems and Nanostructures, and many conference proceedings.
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- Energy Flexural and Acoustic Phonon-drag Thermopower and Electron Energy Loss Rate in Silicene
Meenhaz Ansari, SSZ Ashraf, P Tripathi and A Ahmad
- Terahertz Acoustic Phonon Cerenkov Emission in Bilayer Graphene
Meenhaz Ansari, Subhana Nafees, SSZ Ashraf, and A Ahmad
- Energy relaxation rate and power loss density in graphene on GaAs substrate due to piezoelectric surface acoustic phonons
S A Khatoon, Meenhaz Ansari, and SSZ Ashraf
- Inelastic scattering and cooling of photoexcited electrons through coupling with acoustic, optic and surface polar optic phonons in graphene
S A Khatoon, Meenhaz Ansari, SSZ Ashraf and M Obaidurrahman
- Band gap engineering and enhanced photoluminescence of Mg doped ZnO nanoparticles synthesized by wet chemical route
M Arshad, Meenhaz Ansari, A S Ahmed, P Tripathi, SSZ Ashraf, A H Naqvi and A Azam
- Phonon drag thermopower and energy loss rate in single and bilayer graphene due to piezoelectric surface acoustic phonons in Bloch-Gruneisen regime
- Chirality effect on electron phonon relaxation, energy loss and thermopower in single and bilayer graphene in BG regime
- Acoustoelectric Effect in Suspended and Substrated Silicene
Subhana Nafees, and Meenhaz Ansari
- Electron single flexural phonon relaxation, energy loss and thermopower in single and bilayer graphene in Bloch Gruneisen regime