Archisman Panigrahi

Profile

I'm a graduate student in condensed matter physics at MIT currently working on topological phases of matter and strongly correlated electron systems. My work focuses on understanding emergent phenomena in quantum materials, particularly graphene-based systems and topological materials. I use theoretical and computational methods to study electronic ordering, transport properties, and novel chiral quantum phases. My research aims to bridge fundamental theoretical concepts with experimental observables to guide the discovery and characterization of new quantum phases of matter. I love to collaborate closely with experimental groups to develop theoretical models that can explain and predict novel phenomena in quantum materials.

Publications

Non-Fermi liquids from subsystem symmetry breaking in van der Waals multilayers

Non-Fermi liquids from subsystem symmetry breaking in van der Waals multilayers

Archisman Panigrahi, Ajesh Kumar

Spin chirality and fermion stirring in topological bands

Spin chirality and fermion stirring in topological bands

Archisman Panigrahi, Vladislav Poliakov, Zhiyu Dong, L. Levitov

Isospin Pomeranchuk effect and finite temperature resistivity minimum in rhombohedral graphene

Isospin Pomeranchuk effect and finite temperature resistivity minimum in rhombohedral graphene

Ludwig Holleis, Tian Xie, Siyuan Xu, Haoxin Zhou, Caitlin L. Patterson, Archisman Panigrahi, T. Taniguchi, Kenji Watanabe, L. Levitov, Chenhao Jin, Erez Berg, Andrea F. Young

Signatures of electronic ordering in transport in graphene flat bands

Signatures of electronic ordering in transport in graphene flat bands

Archisman Panigrahi, L. Levitov

Physical Review B 110, 035122 (2024)

Spin-orbit proximity in MoS2/bilayer graphene heterostructures

Michele Masseroni, Mario Gull, Archisman Panigrahi, Nils Jacobsen, Felix Fischer, C. Tong, J. Gerber, Markus Niese, T. Taniguchi, Kenji Watanabe, L. Levitov, T. Ihn, K. Ensslin, Hadrien Duprez, Niels Jakobsen

Nature Communications 15, 9251 (2024)

Projected topological branes

Archisman Panigrahi, V. Juričić, B. Roy

Communications Physics 5 (1), 230 (2022)

Energy magnetization and transport in systems with a non-zero Berry curvature in a magnetic field

Energy magnetization and transport in systems with a non-zero Berry curvature in a magnetic field

Archisman Panigrahi, S. Mukerjee

SciPost Physics Core 6 (3), 052 (2023)

Non-Hermitian dislocation modes: Stability and melting across exceptional points

Non-Hermitian dislocation modes: Stability and melting across exceptional points

Archisman Panigrahi, R. Moessner, B. Roy

Physical Review B 106, L041302 (2022)