Dr. Rupak Dutta

Assistant Professor
Phone:+91-8812848747
Email: rupak@phy.nits.ac.in
Date of Joining: 03/11/2014
Academic/Industrial Experience: xx years

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ACADEMIC QUALIFICATIONS (FULL DETAILS )

  • Ph.D. at University of Kentucky, USA (2009).
  • MS at University of Kentucky, USA (2005),
  • M.Tech at Pune University (2002)
  • M.Sc at Delhi University (1998)

AREA OF INTEREST AND SPECIALISATION (INCLUDING RESEARCH AREA)

Theoretical High Energy Physics: B physics and CP violation, Neutrino oscillation phenomenology.

SUBJECTS TAUGHT (INCLUDING SUBJECTS CURRENTLY TEACHING)

  • Nuclear and Particle physics, theory
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PhD Scholars Guided

  • Rajeev N.(Ongoing)
  • Nilakshi Das(ongoing)
  • Iffat Ara Mazunder(Ongoing)

 

International Conferences

 

 International Journal
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  1. Angular analysis of B s → f ′ 2 ( 1525 ) ( → K + K − ) μ + μ − decays as a probe to lepton flavor universality violation, N. Rajeev, Niladribihari Sahoo, and Rupak Dutta, Phys. Rev. D 103, 095007, 2021
  2. Implication of b→cτν flavor anomalies on Bs→Ds∗τν decay observables, Nilakshi Das and Rupak Dutta, J.Phys.G 47 (2020) 11, 115001
  3. Model independent analysis of New Physics effects on 𝐵𝑐→(𝐷𝑠,𝐷∗𝑠)𝜇+𝜇− decay observables, Rupak Dutta, Phys. Rev. D 100, 075025, 2019
  4. Implication of 𝑅𝐷(∗) anomalies on semileptonic decays of Σ𝑏 and Ω𝑏 baryons , N. Rajeev, Rupak Dutta, and Suman Kumbhakar, Phys. Rev. D 100, 035015, 2019
  5. Predictions of 𝐵𝑐→(𝐷,𝐷∗)𝑙𝜈 decay observables in the standard model and beyond, Rupak Dutta, J. Phys. G: Nucl. Part. Phys. 46, 2019, 035008
  6. Impact of vector new physics couplings on Bs→(K,K∗)τν and B→πτν decays, N. Rajeev and Rupak Dutta, Phys. Rev. D 98, 055024 (2018)
  7. Signature of Lepton flavor universality violation in Bs→Dsτν semileptonic decays, Rupak Dutta and N. Rajeev, Phys.Rev.D 97, 095045 (2018)
  8. Phenomenology of Ξb→Ξcτν decays, Rupak Dutta, Phys. Rev. D 97, 073004, 2018
  9. Exploring RD , RD∗ and RJ/Ψ anomalies, Rupak Dutta, arXiv:1710.00351
  10. Bc→(J/Ψ,ηc)τν semileptonic decays within Standard model and beyond, Rupak Dutta and Anupama Bhol, Phys. Rev. D 96 (2017), 076001
  11. b→(c,,u),τν leptonic and semileptonic decays within an effective field theory approach, Rupak Dutta and Anupama Bhol, Phys.Rev. D96 (2017) no.3, 036012
  12. Λb → (Λc , p) τ ν decays within standard model and beyond, Rupak Dutta, Phys. Rev. D93, 054003, 2016
  13. Perturbative bottom-up approach for neutrino mass matrix in light of large θ13 and role of lightest neutrino mass, Rupak Dutta, Upender Ch, Anjan K. Giri, Narendra Sahu, Int.J.Mod.Phys. A29 (2014) 1450113.
  14. Baryonic b→sll¯ transition decays, Rupak Dutta, Anupama Bhol, Anjan K. Giri, J.Phys. G41 (2014) 065002
  15. Determining neutrino mass hierarchy from electron disappearance at a Low energy neutrino factory, Rupak Dutta, Nita Sinha, Sushant K. Raut, Phys.Rev. D89 (2014) 7, 073011
  16. Effective theory approach to new physics in b → u and b → c leptonic and semileptonic decays, Rupak Dutta, Anupama Bhol, Anjan K. Giri, Phys.Rev. D88 (2013) 11, 114023
  17. Tau contamination in the platinum channel at neutrino factories, Rupak Dutta, D. Indumathi, Nita Sinha, Phys.Rev. D85 (2012) 013003.
  18. CP Asymmetries in B ---> f(0) K(S) Decays, Rupak Dutta, Susan Gardner, Phys.Rev. D78 (2008) 034021