Biography:Sudhir Ranjan Jain

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Short description: Indian theoretical physicist

Sudhir Ranjan Jain
Sudhir Ranjan Jain.jpg
Jain in 2017
NationalityIndian
Alma materUniversity of Delhi (B.Sc.)
Indian Institute of Technology, Delhi (M.Sc.)
University of Mumbai (Ph.D.)
Scientific career
FieldsNonlinear Dynamics, Nuclear Physics, Semiclassical physics, Dynamical billiards, Random Matrix Theory, Quantum chaos
InstitutionsBhabha Atomic Research Centre
Homi Bhabha National Institute
Centre for Excellence in Basic Sciences
Doctoral advisorSuresh V. Lawande

Sudhir Ranjan Jain (born 16 May 1963) is an Indian theoretical physicist[1][2][3] at the Bhabha Atomic Research Centre, Mumbai, known for his contributions in complex quantum systems and Nonlinear dynamics. He was a scientist at the nuclear physics division of Bhabha Atomic Research Centre, a professor at Homi Bhabha National Institute and is an adjunct professor and member of the Academic Board at the Centre for Excellence in Basic Sciences. He has authored Mechanics, Waves and Thermodynamics: An Example-based Approach and A Primer on Fluid Mechanics with Applications.[4] [5] His doctoral advisor was Prof. Suresh V. Lawande,[6] who was a student of Edward Teller.[7]

Biography

Sudhir Ranjan Jain was born in Mainpuri (Uttar Pradesh, India ). He completed his bachelor's degree from Hindu College, Delhi, in 1983 and master's degree from Indian Institute of Technology, Delhi, in 1985.[8] He joined Bhabha Atomic Research Centre in 1986. Subsequently, he obtained his Ph.D. degree from University of Mumbai in 1994 under the guidance of Dr. Suresh V. Lawande.[9] He did post-doctoral research at Centre for Nonlinear Phenomena and Complex Systems, Université libre de Bruxelles, Belgium, with Pierre Gaspard, where he worked on semiclassics of many-body Fermionic systems.[10]

He has been a visiting professor at Feza Gürsey Institute, Istanbul, Turkey (2008), Institut Henri Poincaré, Paris, France (2007), Institute of Theoretical Physics, Utrecht University, Netherlands (2006) and Institute for Physical Science and Technology, University of Maryland, College Park (2005).[8]

Research

Jain's areas of specialization are theoretical nuclear physics,[11][12][13] semiclassical physics,[14] and nonlinear dynamics.[15]

He is known for his work on many-body systems, especially for Jain-Khare models[16][17][18] which gave exact quantum solutions with connections to random matrix theory, leading to exact eigenfunctions for a class of chaotic systems. The bosonised version of the Jain-Khare model exhibits Bose Einstein condensation.[16]

His notable works include his work on Pseudo Hermitian Random Matrix theory,[19] relation of Random Matrix theory to anyon gases,[20] theorems and statistics for integrable billiards and nodal domains,[21][22][23] quantum modes built on chaotic motion,[24] Poincaré recurrence theorem in Kac's ring.[25] His work in neutrino physics pioneered in calculation of geometric phases in neutrinos.[26][27]

Among other contributions, Jain made significant developments towards the exact semiclassical treatment of deuteron[28] which he further extended to nuclear three body problem of triton.[29] He developed an exact semiclassical trace formula to calculate level densities of spherical nuclei with no adjustable parameters.[30]

He has also worked on quantum computation and quantum information science. In particular, his work with his collaborators has led to an understanding of controlling quantum jump by realising "Dehmelt-like" shelving by employing quantum Zeno effect.[31] His work has contributed a non-topological code with highest encoding rate [32] and established protection of qubits using ideas from classical and quantum nonlinear science [33][34][35]

He was scientific secretary of the XXth Solvay Conference on Femtochemistry.[36] He was also the convenor of International conference on complex quantum systems in 2017,[37] 2020 and 2023.[38]

Awards

  • INSA medal for young scientists (1994)[39]
  • Anil Kumar Bose Memorial Award, 1999 (1999) for his work relating to geometric phases and response functions.[40]

References

  1. "Quantum leap by Indian scientists?" (in en-IN). The Hindu. 14 September 2002. https://www.thehindu.com/todays-paper/tp-miscellaneous/quantum-leap-by-indian-scientists/article27869386.ece. 
  2. "Building quantum computers" (in en-IN). Deccan Herald. 10 September 2002. 
  3. "Novel quantum systems to revolutionise communication" (in en-IN). The Hindu. 18 January 2009. 
  4. Jain, Sudhir Ranjan (2016) (in en). Mechanics, waves and thermodynamics : an example-based approach. Cambridge University Press. ISBN 9781316535233. https://www.cambridge.org/core/books/mechanics-waves-and-thermodynamics/69295EC3CA096CE5CF6B0AD2D5693EB0. 
  5. Jain, Sudhir Ranjan; Paradkar, Bhooshan S.; Chitre, Shashikumar M. (2023) (in en). A Primer on Fluid Mechanics with Applications. Springer-Verlag. doi:10.1007/978-3-031-20487-6. ISBN 978-3-031-20486-9. https://link.springer.com/book/10.1007/978-3-031-20487-6. 
  6. "Sudhir Jain - The Mathematics Genealogy Project". https://www.genealogy.math.ndsu.nodak.edu/id.php?id=191455. 
  7. "Edward Teller - The Mathematics Genealogy Project". https://www.genealogy.math.ndsu.nodak.edu/id.php?id=105772. 
  8. 8.0 8.1 "Faculty Sudhir R. Jain". https://www.cbs.ac.in/faculty/faculty-sudhir-r-jain. 
  9. "Suresh Lawande - The Mathematics Genealogy Project". https://www.genealogy.math.ndsu.nodak.edu/id.php?id=191456. 
  10. Gaspard, Pierre; Jain, Sudhir R. (February 1997). "Semiclassical theory for many-body Fermionic systems". Pramana 48 (2): 503–516. doi:10.1007/BF02845659. ISSN 0304-4289. Bibcode1997Prama..48..503G. 
  11. Jain, Sudhir R (12 January 2004). "Semiclassical deuteron". Journal of Physics G: Nuclear and Particle Physics 30 (2): 157–164. doi:10.1088/0954-3899/30/2/013. ISSN 0954-3899. Bibcode2004JPhG...30..157J. 
  12. Dwivedi, Nishchal R.; Kaur, Harjeet; Jain, Sudhir R. (27 March 2018). "Semiclassical triton" (in en). The European Physical Journal A 54 (3): 49. doi:10.1140/epja/i2018-12480-y. ISSN 1434-601X. Bibcode2018EPJA...54...49D. 
  13. Jain, Arun K; Joshi, B N; Jain, Sudhir R (19 July 2012). "Nucleon-Nucleon t-matrix Effective Interaction for (p, 2p)Reactions" (in en). Journal of Physics: Conference Series 374 (1): 012009. doi:10.1088/1742-6596/374/1/012009. ISSN 1742-6596. Bibcode2012JPhCS.374a2009J. 
  14. Brack, Matthias; Jain, Sudhir R. (1 May 1995). "Analytical tests of Gutzwiller's trace formula for harmonic-oscillator potentials". Physical Review A 51 (5): 3462–3468. doi:10.1103/PhysRevA.51.3462. PMID 9912006. Bibcode1995PhRvA..51.3462B. 
  15. Sonone, Rupali L.; Jain, Sudhir R. (1 July 2013). "Nonlinear normal modes and quanta in the β Fermi-Pasta-Ulam lattice" (in en). The European Physical Journal Special Topics 222 (3): 601–608. doi:10.1140/epjst/e2013-01865-4. ISSN 1951-6401. Bibcode2013EPJST.222..601S. 
  16. 16.0 16.1 Yadav, Rajesh K.; Khare, Avanish; Kumari, Nisha; Bhabani, Mandal P. (January 2019). "Rationally extended many-body truncated Calogero–Sutherland model" (in en). Annals of Physics 400 (3): 189–197. doi:10.1016/j.aop.2018.11.009. Bibcode2019AnPhy.400..189Y. 
  17. Jain, Sudhir R.; Khare, Avinash (1999-10-25). "An exactly solvable many-body problem in one dimension and the short-range Dyson model" (in en). Physics Letters A 262 (1): 35–39. doi:10.1016/S0375-9601(99)00637-4. ISSN 0375-9601. Bibcode1999PhLA..262...35J. http://www.sciencedirect.com/science/article/pii/S0375960199006374. 
  18. Auberson, G.; Jain, S. R.; Khare, A. (1999). Off-diagonal long-range order in one-dimensional many-body problem. https://cds.cern.ch/record/413007. 
  19. Pseudo-Hermitian random matrix theory, S. C. L. Srivastava, Sudhir R. Jain, Fortchritte der Physik 61, 276 (2013)
  20. From random matrix theory to statistical mechanics - anyon gas, D. Alonso and Sudhir R. Jain, Phys. Lett. B387, 812 (1996)
  21. A nodal domain theorem for integrable billiards in two dimensions, Rhine Samajdar and Sudhir R. Jain, Ann. Phys. 351, 1 (2014)
  22. Nodal portraits of quantum billiards: Domains, lines, and statistics, Sudhir R. Jain and Rhine Samajdar, Rev. Mod. Phys. 89, 045005 (2017).
  23. Grémaud, Benoît, and Sudhir R. Jain. Spacing distributions for rhombus billiards. Journal of Physics A: Mathematical and General 31.37 (1998): L637.
  24. Quantum modes built on chaotic motion - analytically exact results, Sudhir R. Jain, B. Gremaud, A. Khare, Phys. Rev. E 66, 016216 (2002).
  25. Kac's ring: entropy and Poincare recurrence, C. Aravind and Sudhir R. Jain, Physica A 391, 3702 (2012).
  26. Geometric phase for neutrino propagation in magnetic field, Sandeep Joshi and Sudhir R. Jain, Phys. Lett. B 754, 135 (2016)
  27. Noncyclic geometric phases and helicity transitions for neutrino oscillations in magnetic field,Sandeep Joshi and Sudhir R. Jain, Phys. Rev. D 96, 096004 (2017).
  28. Semiclassical deuteron, Sudhir R. Jain, J. Phys. G 30, 157 (2004).
  29. Semiclassical triton, Nishchal R. Dwivedi, Harjeet Kaur, and Sudhir R. Jain, Eur. Phys. J. A 54, 49 (2018)
  30. Semiclassical theory of melting of shell effects in nuclei with temperature, Harjeet Kaur and Sudhir R. Jain, J. Phys. G 42, 115103 (2015)
  31. Komal Kumari, Garima Rajpoot, Sandeep Joshi, S. R. Jain, Ann. Phys. 450, 169222 (2023))
  32. Kumari, Komal; Rajpoot, Garima; Sudhir Ranjan Jain (2022). "A Genus-two Surface Code". arXiv:2211.12695 [quant-ph].
  33. Protection of qubits by nonlinear resonances, Rakesh K. Saini, Raman Sehgal, and Sudhir R. Jain, Eur. Phys. Journal Plus 137, 356 (2022)
  34. Rajpoot, Garima; Kumari, Komal; Joshi, Sandeep; Jain, Sudhir R. (2022). "The tunable 0−π qubit: Dynamics and relaxation". International Journal of Quantum Information 20 (1). doi:10.1142/S0219749921500325. Bibcode2022IJQI...2050032R. 
  35. Green-Kubo formula for electrical conductivity of a driven 0-π qubit, Garima Rajpoot, Komal Kumari, Sandeep Joshi, and Sudhir R. Jain, Theor. & Math. Phys. 213, 1727 (2022)
  36. Page xi, Chemical Reactions and their Control on the Femtosecond Time Scale: XXth Solvay Conference on Chemistry. Vol. 220. John Wiley & Sons
  37. "ICCQS- International Conference of Complex Quantum Systems, Mumbai 2017". http://sympnp.org/iccqs/. 
  38. "Home". http://iccqs.sympnp.org/. 
  39. "Insa :: Awards Recipients". http://insaindia.res.in/youngmedal.php. 
  40. http://www.barc.gov.in/publications/nl/1999/199911-11.pdf [bare URL PDF]