Teaching Experience

Over the years, I have taught the following courses:

  1. Tutor for the Quantum Mechanics course in the PhD coursework at Saha Institute of Nuclear Physics, India.
    Academic session: 2012-2013.
  2. Taught Advanced Quantum Mechanics (20 lectures on WKB approximation, Time dependent perturbation theory, Scattering theory) of the M. Sc. course at University of Calcutta, India.
    Academic sessions: Feb-May, 2017; Feb-May, 2018.
    My notes for this course can be downloaded (as a .zip file) here.
  3. Taught Nuclear and Particle physics (20 lectures on beta-decay and weak interactions, Strong interaction, Electroweak unification and Big Bang nucleosynthesis) of the M. Sc. course at University of Calcutta, India.
    Academic session: Jul-Oct, 2017.
    My notes for this course can be downloaded here.
  4. Taught Quantum Field Theory (Solution of Dirac equation, gamma matrices, quantization of Dirac and Proca fields, charge conjugation, Weyl and Majorana representations, Feynman rules, Yukawa interaction and the decay of a scalar) of the M. Sc. course at Lund University, Sweden.
    Academic session: Jan-Mar, 2019.
    My notes for this course can be downloaded (as a .zip file) here.
    Feedback from the students for this course can be found here.
  5. Taught Statistical Methods in High Energy Physics (Review of Statistical Distributions, Data Reduction and Error Analysis, Estimation and Least Squares, Confidence levels, Hypothesis testing) of the Ph.D. course at IIT Indore, India.
    Academic session: Spring, 2020; Spring, 2021; Spring, 2022.
    My notes for this course can be downloaded here with addendum.
  6. Taught Electrostatics (Coulomb's Law, Divergence theorem, Laplace's Equation and solutions, Boundary conditions, Multipole expansion, Capacitors, Electrostatic energy, Method of images) part of the B.Tech. PH-106 course at IIT Indore, India.
    Academic sessions: Autumn, 2020; Autumn, 2021; Autumn, 2022.
    My notes for this course can be downloaded here with addendum.
  7. Taught Classical Mechanics (20 Lectures and Tutorials on Lagrangian and Hamiltonan formalism) of the M.Sc. (Physics) course at IIT Indore, India.
    Academic session: Autumn, 2020; Autumn, 2021; Autumn, 2022.
    My notes for this course can be downloaded (as a .pdf file) here.
    My online lectures for this course have been uploaded on YouTube.
  8. Taught Nuclear and Particle Physics (20 Lectures and Tutorials on Nuclear structure, Nuclear Models and Nuclear scattering) of the M.Sc. (Physics) course at IIT Indore, India.
    Academic session: Spring, 2023.
    My notes for this course will be available soon.
  9. Taught Flavor physics and neutrino oscillations of the Ph.D. (Theoretical Physics) coursework at IIT Indore, India.
    Academic session: Spring, 2022; Autumn, 2023.
    My notes for this course will be available soon.

Other Pedagogical Talks and Seminars

  1. "From Fermi theory to the Standard model and beyond: The unitarity viewpoint".
    Seminar at Instituto de Fisica Corpuscular (IFIC), Paterna, Spain on 27th April, 2016. [YouTube]
  2. "Lessons for New Physics beyond the SM from the Higgs discovery".
    Pedagogical seminar for the M.Sc. (Physics) students at University of Calcutta, India on 21st September, 2017. [PDF]
  3. "Why did we need the Higgs boson and do we need more?".
    Public webinar organized by Vivekananda College, Kolkata, India on 3rd September, 2020. [YouTube]

Undergraduate and Graduate Supervision

  1. Co-supervisor (with Roman Pasechnik) for the Master Thesis of Ian Padilla in Lund University, Sweden.
    Academic session: 2018-2019.