Dr. Garima Saxena
Assistant Professor
Department of Physics
gsaxena2006@yahoo.co.in
Educational Qualifications
- MSc, Ph.D.
Areas of Specialization
- Astrophysics; General Theory of Relativity; Nonlinear Dynamics.
Administrative roles/ responsibilities
- DBT coordinator from Physics Department (2018-2020);
- Convenor of Physics Society ‘Principia’ (2018-2021)
Courses Taught
Theory papers i. Mathematical Physics -I ii. Mathematical Physics -III iii. Advanced Mathematical Physics -I iv. Advanced Mathematical Physics -II v. Classical Dynamics vi. Computational Physics vii. Astronomy and Astrophysics viii. Waves and optics Practical labs i. Modern Physics ii. Mathematical Physics-I ( C++) iii. Mathematical Physics-II (Scilab) iv. Mathematical Physics-III (C++ , Scilab) v. Advanced Mathematical Physics-I (Scilab) vi. Computational Physics (FORTRAN, GNUPLOT, LaTeX) vii. Quantum Mechanics (Scilab) viii. Statistical Mechanics (Scilab)
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i. ‘Dynamical effects of Integrative time delay coupling’, Garima Saxena, A. Prasad and R. Ramaswamy, Physical Review E 82, 017201 (2010). Impact factor: 2.296; Citations: 41 ii. ‘Effect of finite response time in coupled dynamical systems’, Garima Saxena, A. Prasad and R. Ramaswamy, Pramana 77, 865 (2011). Impact factor: 1.688; Citations: 3 iii. ‘Amplitude death: the emergence of stationarity in coupled nonlinear systems’, Garima Saxena, A. Prasad and R. Ramaswamy, Physics Reports 52, 205 (2012). Impact factor: 28.294; Citations: 251 iv. ‘Amplitude death in delay coupled Hamiltonian systems’, Garima Saxena, A. Prasad and R. Ramaswamy, Physical Review E 82, 052912 (2013). Impact factor: 2.296; Citations: 5 v. ‘Amplitude death: the cessation of oscillations in coupled nonlinear dynamical systems’, Garima Saxena, N. Punetha, A. Prasad and R. Ramaswamy, AIP conference Proceedings 1582, 158 (2014). Impact factor: 2.296; Citations: 5 vi. ‘Oscillation death and revival by coupling with damped harmonic oscillator’, V. Varshney, Garima Saxena, B. Biswal and A. Prasad, Chaos 27(9), 093104 (2017). Impact factor: 2.643; Citations: 3 vii. ‘Dynamical effects of breaking rotational symmetry in counter rotating Stuart-Landau oscillators’, N. Punetha, V. Varshney, S. Sahoo, Garima Saxena, A. Prasad and R. Ramaswamy, Physical Review E 98(2) 022212 (2018) Impact factor: 2.296; Citations: 8 Total impact factor: 41.43 , Total citations: 316