Quantum Many-Body Theory and Non-Equilibrium Systems
I am a condensed matter theorist with a strong interest in quantum many-body theory and non-equilibrium systems. My research interests include; strongly correlated phases of matter, topological order, entanglement in many-body systems, critical dynamics, Floquet dynamics, many-body localization and ultra-fast spectroscopic probes of dynamics. Most recently, I have been working on the description of thermalization and localization in interacting quantum systems and on the dynamics of periodically driven systems.
“Localization and symmetry breaking in the quantum quasiperiodic Ising glass”, A. Chandran, C.R. Laumann. Phys. Rev. X 7, 031061 (2017).
“Emergent Coulombic criticality and Kibble-Zurek scaling in a topological magnet,” J. Hamp, A. Chandran, R. Moessner, C. Castelnovo. Phys. Rev. B 92, 075142 (2015).
“Periodically driven ergodic and many-body localized quantum systems,” P. Ponte, A. Chandran, Z. Papić, D.A. Abanin. Annals of Physics 353, 196 (2015).
“How universal is the entanglement spectrum?” A. Chandran, V. Khemani, S.L. Sondhi. Phys. Rev. Lett. 113, 060501 (2014).
“Bulk-edge correspondence in entanglement spectra,” A. Chandran, M. Hermanns, N. Regnault, B.A. Bernevig. Phys. Rev. B 84, 205136 (2011).
For a full list of publications, please see the attached CV.