Biography:Rahul Nandkishore

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Short description: Physicist and academic
Rahul Nandkishore
OccupationPhysicist and academic
Academic background
EducationBA., Natural Sciences
MS., Natural Sciences
PhD., Physics
Alma materTrinity College, Cambridge
Massachusetts Institute of Technology
ThesisQuantum many-body physics in single and bilayer graphene (2012)
Academic work
InstitutionsUniversity of Colorado

Rahul Nandkishore is a physicist and academic. He is an Associate Professor of Physics and Director of the Center for Theory of Quantum Matter at the University of Colorado, Boulder.[1]

Nandkishore is most known for his research on statistical physics, condensed matter theory, graphene and Dirac semimetals, many-body localization, fracton phases of matter, and constrained quantum dynamics.[2] He is the recipient of the U.S. Air Force Office of Sponsored Research Young Investigator Award in 2016,[3] the Alfred P. Sloan Fellowship Award[4] U.S. Army Research Office Young Investigator Award in 2017, and Simons Fellowship in Theoretical Physics in 2021.[5]

Education

Nandkishore earned a Bachelor's degree in Natural Sciences from Trinity College, Cambridge, where he also received a Master's degree in Natural Sciences in 2008. He obtained a Ph.D. in Physics from the Massachusetts Institute of Technology in 2012, then joined Princeton University as a Postdoctoral fellow, remaining there until 2015.[6]

Career

Nandkishore began his academic career as an Assistant Professor of Physics at the University of Colorado, Boulder in 2015, and was appointed Associate Professor in 2019.[1] Additionally, he served as Visiting Associate Professor of Physics at Stanford University in 2022.[7] He also created a Massive Open Online Course on Coursera, entitled Introduction to Condensed Matter Physics.[8] He has been a Fellow of the Center for Theory of Quantum Matter (CTQM) at the University of Colorado, Boulder since 2015 and has been serving as the director of the CTQM since 2023.[9]

Research

Nandkishore has made contributions to the field of physics through his research in statistical physics, condensed matter theory, correlated phases in graphene, many-body localization, fractionalized phases, constrained quantum dynamics and Dirac semimetals.[2]

Nandkishore is most known for his work on correlated and disordered systems, in particular for his work identifying a new route to chiral superconductivity in hexagonal lattice systems near Van Hove filling,[10] for his work on disorder effects in Weyl semimetals,[11] and for his work using nonlinear spectroscopy to infer and explain intrinsic lifetimes of dipolar excitations in doped Silicon. He is also known for his work in statistical mechanics, especially for his introduction of the concept of localization protected order,[12] for the discovery of non-local response in localized systems,[13] now known as the KNS effect,[14] and for the extension of many body localization to certain long range interacting systems.[15] In addition, he founded the study of fracton dynamics, including new routes to ergodicity breaking[16][17] and new hydrodynamic universality classes,[18][19] both effects that have been observed in experiments.[20][21][22]

Awards and honors

  • 2016 – Young Investigator Award, U.S. Air Force Office of Sponsored Research[3]
  • 2017 – Sloan Research Fellowship, Alfred P. Sloan Foundation[4]
  • 2017 – Young Investigator Award, U.S. Army Research Office
  • 2021 – Simons Fellowship in Theoretical Physics, Simons Foundation[5]

Selected articles

  • Nandkishore, R., Levitov, L. S., & Chubukov, A. V. (2012). Chiral superconductivity from repulsive interactions in doped graphene. Nature Physics, 8(2), 158-163.
  • Huse, D. A., Nandkishore, R., Oganesyan, V., Pal, A., & Sondhi, S. L. (2013). Localization-protected quantum order. Physical Review B, 88(1), 014206.
  • Huse, D. A., Nandkishore, R., & Oganesyan, V. (2014). Phenomenology of fully many-body-localized systems. Physical Review B, 90(17), 174202.
  • Nandkishore, R., & Huse, D. A. (2015). Many-body localization and thermalization in quantum statistical mechanics. Annu. Rev. Condens. Matter Phys., 6(1), 15-38.
  • Nandkishore, R. M., & Hermele, M. (2019). Fractons. Annual Review of Condensed Matter Physics, 10, 295-313.
  • Khemani, V., Hermele, M., & Nandkishore, R. (2020). Localization from Hilbert space shattering: From theory to physical realizations. Physical Review B, 101(17), 174204.

References

  1. 1.0 1.1 "Rahul Nandkishore". April 6, 2016. https://www.colorado.edu/physics/rahul-nandkishore. 
  2. 2.0 2.1 "Rahul Nandkishore". https://scholar.google.com/citations?user=xs0vyGoAAAAJ&hl=en. 
  3. 3.0 3.1 "AFOSR Awards Grants to 58 Scientists and Engineers through its Young Investigator Research". October 11, 2016. https://www.wpafb.af.mil/News/Article-Display/Article/969772/afosr-awards-grants-to-58-scientists-and-engineers-through-its-young-investigat/https%3A%2F%2Fwww.wpafb.af.mil%2FNews%2FArticle-Display%2FArticle%2F969772%2Fafosr-awards-grants-to-58-scientists-and-engineers-through-its-young-investigat%2F. 
  4. 4.0 4.1 "Professor Rahul Nandkishore Named 2017 Alfred P. Sloan Research Fellow". February 21, 2017. https://www.colorado.edu/physics/2017/02/21/professor-rahul-nandkishore-named-2017-alfred-p-sloan-research-fellow. 
  5. 5.0 5.1 "2021 Simons Fellows in Mathematics and Theoretical Physics Announced". February 4, 2021. https://www.simonsfoundation.org/2021/02/04/2021-simons-fellows-in-mathematics-and-theoretical-physics-announced/. 
  6. "Rahul Nandkishore". https://pcts.princeton.edu/people/rahul-nandkishore. 
  7. "Rahul Mahajan Nandkishore | Physics Department". January 1, 2022. https://physics.stanford.edu/people/rahul-mahajan-nandkishore. 
  8. "The Physics of Emergence: Introduction to Condensed Matter". https://www.coursera.org/specializations/the-physics-of-emergence-introduction-to-condensed-matter/. 
  9. "Nandkishore | CTQM". http://ctqm.colorado.edu/people/nandkishore. 
  10. Nandkishore, Rahul; Levitov, L. S.; Chubukov, A. V. (February 29, 2012). "Chiral superconductivity from repulsive interactions in doped graphene". Nature Physics 8 (2): 158–163. doi:10.1038/nphys2208. Bibcode2012NatPh...8..158N. https://www.nature.com/articles/nphys2208. 
  11. Nandkishore, Rahul; Huse, David A.; Sondhi, S. L. (June 10, 2014). "Rare region effects dominate weakly disordered three-dimensional Dirac points". Physical Review B 89 (24): 245110. doi:10.1103/PhysRevB.89.245110. Bibcode2014PhRvB..89x5110N. https://link.aps.org/doi/10.1103/PhysRevB.89.245110. 
  12. Huse, David A.; Nandkishore, Rahul; Oganesyan, Vadim; Pal, Arijeet; Sondhi, S. L. (July 22, 2013). "Localization-protected quantum order". Physical Review B 88 (1): 014206. doi:10.1103/PhysRevB.88.014206. Bibcode2013PhRvB..88a4206H. 
  13. Khemani, Vedika; Nandkishore, Rahul; Sondhi, S. L. (July 30, 2015). "Nonlocal adiabatic response of a localized system to local manipulations". Nature Physics 11 (7): 560–565. doi:10.1038/nphys3344. Bibcode2015NatPh..11..560K. https://www.nature.com/articles/nphys3344. 
  14. Ovadyahu, Z. (March 13, 2020). "Long-range influence of manipulating disordered insulators locally". Physical Review B 101 (9): 094202. doi:10.1103/PhysRevB.101.094202. Bibcode2020PhRvB.101i4202O. https://link.aps.org/doi/10.1103/PhysRevB.101.094202. 
  15. Nandkishore, Rahul M.; Sondhi, S. L. (October 25, 2017). "Many-Body Localization with Long-Range Interactions". Physical Review X 7 (4): 041021. doi:10.1103/PhysRevX.7.041021. Bibcode2017PhRvX...7d1021N. 
  16. Pai, Shriya; Pretko, Michael; Nandkishore, Rahul M. (April 3, 2019). "Localization in Fractonic Random Circuits". Physical Review X 9 (2): 021003. doi:10.1103/PhysRevX.9.021003. Bibcode2019PhRvX...9b1003P. 
  17. Khemani, Vedika; Hermele, Michael; Nandkishore, Rahul (May 15, 2020). "Localization from Hilbert space shattering: From theory to physical realizations". Physical Review B 101 (17): 174204. doi:10.1103/PhysRevB.101.174204. Bibcode2020PhRvB.101q4204K. https://link.aps.org/doi/10.1103/PhysRevB.101.174204. 
  18. Iaconis, Jason; Vijay, Sagar; Nandkishore, Rahul (December 4, 2019). "Anomalous subdiffusion from subsystem symmetries". Physical Review B 100 (21): 214301. doi:10.1103/PhysRevB.100.214301. Bibcode2019PhRvB.100u4301I. https://link.aps.org/doi/10.1103/PhysRevB.100.214301. 
  19. Gromov, Andrey; Lucas, Andrew; Nandkishore, Rahul M. (July 22, 2020). "Fracton hydrodynamics". Physical Review Research 2 (3): 033124. doi:10.1103/PhysRevResearch.2.033124. Bibcode2020PhRvR...2c3124G. 
  20. Kohlert, Thomas; Scherg, Sebastian; Sala, Pablo; Pollmann, Frank; Hebbe Madhusudhana, Bharath; Bloch, Immanuel; Aidelsburger, Monika (January 5, 2023). "Exploring the Regime of Fragmentation in Strongly Tilted Fermi-Hubbard Chains". Physical Review Letters 130 (1): 010201. doi:10.1103/PhysRevLett.130.010201. PMID 36669215. Bibcode2023PhRvL.130a0201K. https://link.aps.org/doi/10.1103/PhysRevLett.130.010201. 
  21. Scherg, Sebastian; Kohlert, Thomas; Sala, Pablo; Pollmann, Frank; Hebbe Madhusudhana, Bharath; Bloch, Immanuel; Aidelsburger, Monika (July 23, 2021). "Observing non-ergodicity due to kinetic constraints in tilted Fermi-Hubbard chains". Nature Communications 12 (1): 4490. doi:10.1038/s41467-021-24726-0. PMID 34301932. Bibcode2021NatCo..12.4490S. 
  22. Guardado-Sanchez, Elmer; Morningstar, Alan; Spar, Benjamin M.; Brown, Peter T.; Huse, David A.; Bakr, Waseem S. (February 21, 2020). "Subdiffusion and Heat Transport in a Tilted Two-Dimensional Fermi-Hubbard System". Physical Review X 10 (1): 011042. doi:10.1103/PhysRevX.10.011042. Bibcode2020PhRvX..10a1042G. 



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