Archisman Panigrahi

Research Interests

I am broadly interested in theoretical condensed matter physics. Here are some topics I have worked on:

• Non-Fermi Liquids emerging due to subsystem symmetry breaking
• Spin chirality in systems with spontaneously broken time-reversal symmetry
• Electronic transport in two‐dimensional systems, and the effects of Berry curvature in transport
• Topological phases of matter and quantum phase transitions

List of my journal articles and preprints in theoretical physics:

• Tunneling density of states in exotic superconductors and spatial patterns of particle-hole interference, A. Panigrahi, V. Poliakov, L. Levitov, arxiv:2503.16168
• Non-Fermi liquids from subsystem symmetry breaking in van der Waals multilayers, A. Panigrahi, A. Kumar, arxiv:2411.08091
• Spin chirality and fermion stirring in topological bands, A. Panigrahi, V. Poliakov, Z. Dong, L. Levitov, arxiv:2407.17433
• Signatures of electronic ordering in transport in graphene flat bands, A. Panigrahi, L. Levitov Phys. Rev. B 110, 035122 (2024), arxiv:2403.18817
• Projected Topological Branes, A. Panigrahi, V. Juričić, B. Roy, Communications Physics 5, 230 (2022), arxiv:2112.06911
• Energy magnetization and transport in systems with a non-zero Berry curvature in a magnetic field, A. Panigrahi, S. Mukerjee, SciPost Phys. Core 6, 052 (2023), arxiv:2111.08026
• Non-Hermitian dislocation modes: Stability and melting across exceptional points, A. Panigrahi, R. Moessner, B. Roy, Phys. Rev. B 106, L041302 (2022), arxiv:2105.05244

Articles and Preprints in Experimental Condensed Matter Physics to which I contributed:

• Fluctuating magnetism and Pomeranchuk effect in multilayer graphene, Nature 640, 355–360 (2025), arxiv:2407.13763
• Spin-orbit proximity in MoS₂/bilayer graphene heterostructures, Nat Commun 15, 9251 (2024), arxiv:2403.17120

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