Special Lectures

  • AI Winter Workshop: What electronic configurations are possible in materials? Brown University, Providence, RI. (January, 2024).
  • Probing quantum materials to obtain unprecedented views of matter, distinguished lecture at the MANO second semester SPRING Workshop, University of Bologna, Bologna, Italy (May, 2023).
  • Sensing at the quantum limit using spin squeezing and multi-modal microwave techniques, 4th annual International Summer School on QUANTUM SENSING, INFORMATION PROCESSING AND COMPUTING: shaping the future with the second quantum revolution, University of Bologna, Bologna, Italy. (July, 2022)
  • Magnetic resonance techniques for probing quantum materials, 5th annual Fundamentals of Quantum Materials Summer School, University of Maryland, College Park, MD. (Jun 2022)
  • Exotic magnetic field measurements & effects, University of New Hampshire – Solid State Physics Class. virtual (May 2021).
  • Lecture on qubits, quantum measurements, & gates, 2020 Quantum Winter School: An Introduction to Quantum Computing and Materials. virtual (December 2020)
  • Quantum Sensing and Interaction of Radiation with Matter, International Summer School on Physical Sensing, Processing and Computation, University of Bologna, Bologna, Italy. (July, 2019)
  • Science Underground Public Lecture on Fascinating quantum world & how it has changed our lives, forever!, Providence, RI. (December 2015)
  • Low Dimensional Quantum Transport and Modern Microscopic Techniques at Hanoi University of Science, Hanoi, Vietnam. (December, 2012)
  • NMR in Superconductors, Aspen Summer Workshop on Quantum Vortices and Fluctuations in Superconductors and Superfluids, Aspen, CO. (July, 2009)
  • Spin Resonance Spectroscopies Applied to Condensed Matter Physics2008 Boulder Summer School for Condensed Matter and Materials Physics, Boulder, CO. (July, 2008)

Courses

  • Phys 2711 – Seminar in Research Topics on Quantum Sensing for Advanced Detectors in High Energy Physics – (Spring  2022 & 2024)
  • Phys 2050 – Quantum Mechanics I – (Fall 2019 – 2022)
  • Phys 2010 – Techniques in Experimental Physics – (Spring 2017 – 2021)
  • Phys 1560 – Modern Physics Laboratory – (Spring 2014 – 2015)
  • Phys 1410 – Quantum Mechanics A – (Fall 2011 – 2014)
  • Phys 0040 – Introduction to Physics II (Electricity and Magnetism) – (Spring 2012 – 2013)
  • Phys 2420 – Solid State Physics II – (Spring 2009 – 2011)
  • Phys 0790 – Physics of Matter – (Fall 2007 – 2009)
  • Phys 0560 – Experiments in Modern Physics – (Spring 2006 – 2008, 2022)
  • Phys 1530 – Thermodynamics and Statistical Mechanics – (Fall 2004 – 2006; 2017 – 2018)

Independent Studies

  • Emergent phenomena in entangled multiparticle states
  • Calculation of powder pattern NMR spectra for high nuclear spin
  • Calculation of the electric field gradient using point charge approximation formalism
  • Calculation of the probability distribution of the local spin operators using lattice sum formalism
  • Spatial dependence of the RF field profile of the NMR surface
  • NMR relaxation Rate in Luttinger liquid formalism
  • UItralow Temperature NMR
  • Quantum Control
  • Elementary Quantum Computing in NaClO3 – 2-qbit operations
  • Theory of Quantum Computing with NMR
  • Magnetic Properties Of Material