Naga-Deepthi-Kuchibhatla

Nagadeepthi Kuchibhatla

Associate Professor
nagadeepthi.kuchibhatla@mahindrauniversity.edu.in

Dr. Naga Deepthi K is an Associate Professor in Department of Physics, Mahindra University. Dr. Deepthi completed her Ph.D. in neutrino physics phenomenology at University of Hyderabad. Prior to joining MU, she was a postdoctoral fellow at Physical Research Laboratory, Ahmedabad.

Ph.D.

  • Ph.D. in Neutrino physics – School of Physics, University of Hyderabad, India.

M.Sc

  • M.Sc. Physics (specialization – High Energy Physics) – School of Physics, University of Hyderabad, India.

B.Sc.

  • B.Sc. (Physics – Honours) – Sri Satya Sai University, Anantapur, India.

Present

  • She is an Associate Professor at École Centrale School of Engineering, Mahindra University.

2016-2018

  • Postdoctoral fellow (July 2016- July 2018) at Physical Research Laboratory, Ahmadabad, India.

2013-2014

  • Visiting Scientist at Fermi National Accelerator Laboratory (April 2013-Feb 2014), Batavia, Illinois, USA.

2009-10

  • Project student at Harish-Chandra Research Institute (2009-10), Allahabad, India.

2021

  • Rudra Majhi, Dinesh Kumar Singha, K.N. Deepthi, Rukmani Mohanta, ‘Constraining CPT violation with Hyper-Kamiokande and ESSnuSB’ Phys.Rev.D 104 (2021) 5, 055002.
  • K.N. Deepthi, Kaustav Chakraborty, Srubabati Goswami, Anjan S. Joshipura, Newton Nath ‘Exploring Partial μ-τReflection Symmetry in DUNE and Hyper-Kamiokande’ Springer Proc.Phys. 261 (2021), 467-473.

2020

  • K.N. Deepthi, Srubabati Goswami, Vishnudath K.N., Tanmay Kumar Poddar, ‘Implications of the dark large mixing angle solution and a fourth sterile neutrino for neutrinoless double beta decay’, Phys.Rev.D 102 (2020) 1, 015020.

2018

  • Kaustav Chakraborty, K.N. Deepthi, Srubabati Goswami, Anjan S. Joshipura, Newton Nath, ‘Exploring partial μ-τ reflection symmetry at DUNE and Hyper-Kamiokande’, Phys.Rev.D 98 (2018) 7, 075031.
  • Kaustav Chakraborty, K.N. Deepthi, Srubabati Goswami, ‘Spotlighting the sensitivities of Hyper-Kamiokande, DUNE and ESS ν SB’, Nucl.Phys.B 937 (2018) 303-332.
  • K.N. Deepthi, Srubabati Goswami, Newton Nath, ‘Challenges posed by non-standard neutrino interactions in the determination of δCP at DUNE’, Nucl.Phys.B 936 (2018) 91-105.
  • Newton Nath, Srubabati Goswami, K.N. Deepthi, ‘Generalized degeneracies and their resolution in neutrino oscillation experiments’, Springer Proc.Phys. 203 (2018) 611-614.

2017

  • K.N. Deepthi, Srubabati Goswami, Newton Nath ‘Can nonstandard interactions jeopardize the hierarchy sensitivity of DUNE?’, Phys.Rev.D 96 (2017) 7, 075023.

2016

  • P. Adamson et. al., ‘First measurement of muon-neutrino disappearance in NOvA’, Phys. Rev. D (93) (2016) no.5, 051104.
  • P. Adamson et. al., ‘First measurement of electron-neutrino appearance in NOvA’, Phys. Rev. Lett. 116 (2016) 151806.
  • M. Sruthilaya, Soumya C, K.N. Deepthi, R. Mohanta, ‘Predicting Leptonic CP Phase by Considering Deviations in Charged Lepton and Neutrino Sectors’, Springer Proc.Phys. 174 (2016) 401-406.
  • C. Soumya, K. N. Deepthi, R. Mohanta, ‘A comprehensive study of the discovery potential of NOvA, T2K and T2HK experiments and the effect of cross-section uncertainty’, Adv.High Energy Phys. (2016) 9139402.

2015

  • K. N. Deepthi, C. Soumya, R. Mohanta, ‘Revisiting the sensitivity studies for leptonic CP violation and mass hierarchy with T2K, NOvA and LBNE experiments’, New J. Phys. 17 (2015) no.2 , 023035.
  • Shruthilaya M, Soumya C, K. N. Deepthi, R. Mohanta, ‘Predicting Leptonic CP phase by considering deviations in charged lepton and neutrino sectors’, New J.Phys.17 (2015) 8, 083028.

2013

  • Srinu Gollu, K. N. Deepthi, R. Mohanta, ‘Charged lepton correction to tri-bimaximal lepton mixing and its implications to neutrino phenomenology’, Mod.Phys.Lett.A 28 (2013) 1350131.

2012

  • K. N. Deepthi, R. Mohanta, ‘Possibility of observing leptonic CP violation with perturbed Democratic mixing patterns’, Mod.Phys.Lett.A 27 (2012) 1250175.
  • K. N. Deepthi, Srinu Gollu, R. Mohanta, ‘Neutrino mixing matrices with relatively large and with texture one-zero’, Eur.Phys.J.C 72 (2012) 1888.
  • Neutrino Physics.
  • Beyond Standard Model Physics.
  • Neutrino-less double beta decay.