EDUCATION
APRIL 2009 - MAY 2010
SECONDARY, Rishabh Public School, Delhi.
APRIL 2011 – MAY 2012
HIGHER SECONDARY, Rishabh Public School, Delhi.
AUGUST 2012 - JUNE 2015
GRADUATION (B.Sc. (Hons.) Physics), University of Delhi, Delhi.
AUGUST 2017 – PRESENT
INTEGRATED PhD (Physics), School of Basic Sciences, Indian Institute of Technology Mandi, Mandi.
SECONDARY, Rishabh Public School, Delhi.
APRIL 2011 – MAY 2012
HIGHER SECONDARY, Rishabh Public School, Delhi.
AUGUST 2012 - JUNE 2015
GRADUATION (B.Sc. (Hons.) Physics), University of Delhi, Delhi.
AUGUST 2017 – PRESENT
INTEGRATED PhD (Physics), School of Basic Sciences, Indian Institute of Technology Mandi, Mandi.
PROJECTS
DEC 2017 – FEB 2018 (Winter Project)
Non-Hermitian Quantum Mechanics: An Analytically Solvable Model.
FEB 2018 – MAY 2018
Theory of Electronic Relaxation in Solution: Exact solution for the case of particle in a box with a sink of finite width.
JUNE 2018 – JUNE 2019
Presented Mini thesis titled “Understanding the role of lattice vibrations in solid electrolyte via Raman Spectroscopy.”
AUGUST 2019 – DEC 2020
Understanding the role of lattice vibrations and probing the structural phase transitions in Potassium Sodium Niobate (KNaNbO3) composites via Raman spectroscopic technique by taking the inference from the evolution of optical phonon modes as a function of doping as well as temperature.
FEB 2021 – PRESENT
Effective Hamiltonian for isomerizing systems.
Non-Hermitian Quantum Mechanics: An Analytically Solvable Model.
FEB 2018 – MAY 2018
Theory of Electronic Relaxation in Solution: Exact solution for the case of particle in a box with a sink of finite width.
JUNE 2018 – JUNE 2019
Presented Mini thesis titled “Understanding the role of lattice vibrations in solid electrolyte via Raman Spectroscopy.”
AUGUST 2019 – DEC 2020
Understanding the role of lattice vibrations and probing the structural phase transitions in Potassium Sodium Niobate (KNaNbO3) composites via Raman spectroscopic technique by taking the inference from the evolution of optical phonon modes as a function of doping as well as temperature.
FEB 2021 – PRESENT
Effective Hamiltonian for isomerizing systems.
Technical skills
- Experimental instrument: Raman Spectrometer - Confocal Raman Microscope (HORIBA LabRAM)
- Programming languages: C, C++
- Software: Origin Pro, Mathematica, Latex, Vesta, MS Office
- Familiar: MATLAB, Quantum Espresso
OTHER INTERESTS
- Digital ART / Painting
- Photography
- Hiking/ Trekking