People: Kartiek Agarwal

Harvard
kagarwal@fas.harvard.edu
Room Lyman-123
Oxford Street
Cambridge, MA 02139
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Graduate Student
Publications
  1. T. Andersen, B. Dwyer, J. Sanchez-Yamagishi, J. Rodriguez-Nieva, K. Agarwal, E. Demler, H. Park, M. Lukin, K. Wantanbe, T. Taniguchi, and P. Kim. Electron-phonon instability in graphene revealed by global and local noise probes. Science, 364(6436), April 2019.
  2. J. Rodriguez-Nieva, K. Agarwal, M. Lukin, E. Demler, T. Giamarchi, and H. I. Halperin. Probing one-dimensional systems via noise magnetometry with single spin qubits. ArXiv 2018.
  3. J. Rodriguez-Nieva, K. Agarwal, M. Lukin, E. Demler, Thierry Giamarchi, and Bertrand I. Halperin. Probing one-dimensional systems via noise magnetometry with single spin qubits. Phys. Rev. B, 98(195433), November 2018.
  4. K. Agarwal, R. Schmidt, M. Lukin, E. Demler, B. Halperin, V. Oganesyan, and G. Zarand. Magnetic Noise Spectroscopy as a Probe of Local Electronic Correlations in Two-Dimensional Systems. Phys. Rev. B, 95(155107), April 2017.
  5. K. Agarwal, E. Dalla Torre, E. Demler, and J. Schmiedmayer. Quantum heat waves in a one-dimensional condensate. Phys Rev B, 95(195157), May 2017.
  6. K. Agarwal, E. Demler, M. Knap, E. Altman, S. Gopalakrishnan, and D. Huse. Rare region effects and dynamics near the many-body localization transition. Annalen Der Physik, 1600326, January 2017.
  7. S. Gopalakrishnan, K. Agarwal, E. Demler, M. Knap, and D. Huse. Griffiths effects and slow dynamics in nearly many-body localized systems. Phys Rev B, 93(134206), April 2016.
  8. K. Agarwal, E. Demler, and I. Martin. 1/f noise and generalized diffusion in random Heisenberg spin systems. Physical Review B, 92(184203), November 2015.
  9. K. Agarwal, S. Gopalakrishnan, M. Knap, E. Demler, and M. Muller. Anomalous Diffusion and Griffiths Effects Near the Many-Body Localization Transition. Phys. Rev. Lett., 114:160401, 2014.
  10. K. Agarwal, Emanuele G. Dalla Torre, B. Rauer, T. Langen, and J. Schmiedmayer. Chiral Prethermalization in Supersonically Split Condensates. Phys Rev Lett, 113:190401, 2014.
  11. K. Agarwal and I. Martin. Polaronic model of Two Level Systems in amorphous solids. Phys. Rev. B, 87:144201, 2013.