Our group focuses on the phenomena of quantum transport in low-dimensional meso/nano-scale systems. These low-dimensional systems involve graphene and its derivatives, silicene, mesoscopic hybrid junctions, and Weyl semi-metal, to name a few. We are also giving our attention to systems that exhibit band inversion to form topological band structures.
Selected Publications:
Effect of electron-hole asymmetry on optical conductivity in 8-Pmmn borophene,
S. Verma, A. Mawrie, T. K. Ghosh, Physical Review B, 96, 155418 (2017)
Direction-dependent giant optical conductivity in two-dimensional semi-Dirac materials,
A. Mawrie, B. Muralidharan, Physical Review B, 99, 075415 (2019)
Quantum thermoelectrics based on two-dimensional semi-Dirac materials,
A. Mawrie, B. Muralidharan, Physical Review B, 100, 081403 (R) (2019)
Google scholar: https://scholar.google.co.in/citations?user=x5QLIFgAAAAJ&hl=en
ResearchGate: https://www.researchgate.net/profile/Alestin-Mawrie
Magnetotransport properties of the Quantum Spin Hall and Quantum Hall states in an inverted HgTe/CdTe quantum well
Ongoing work
Quantum Anomalous Hall Effect