Portfolio item number 1
Short description of portfolio item number 1
Short description of portfolio item number 1
Short description of portfolio item number 2 
Physics Review B, 2023
Physics Review B, 2024
Physics Review B, 2024
Physics Review B, 2024
SciPost, 2025
Physics Review X, 2025
Physics Review B, 2026
Published:
See slides for this talk here
Published:
See slides for this talk here, and an YouTube recording here
Published:
Seminar cycle @QCOMBINE. See slides for this talk here.
Published:
Seminar at CMSA seminar cycle. See slides for this talk here and YouTube recording here
Published:
Seminar at Kid’s seminar - Harvard Condensed Matter Theory cycle. See slides for this talk here.
Published:
Seminar at Paths to Quantum Field Theory 2024. See slides for this talk here.
Published:
Seminar at Purdue Quantum Theory Seminar. See slides for this talk here.
Published:
Seminar at Quantum Foundry Thrust 2. See slides for this talk here.
Published:
See slides for this talk here.
Published:
Talk @ CMT/LTC Seminars. See slides for this talk here.
Published:
See slides for this talk here.
Undergraduate, Boston University, Physics Department, 2021
This is a calculus-based introduction to basic principles of physics, emphasizing Newtonian mechanics, conservation laws, and thermodynamics. Check out the course website for further details.
Undergraduate, Boston University, Physics Department, 2022
This course is a calculus-based introduction to basic principles of physics, emphasizing electromagnetism, circuits, and optics. Check out the course website for further details.
Undergraduate, Boston University, Physics Department, 2023
This course introduces students to dynamics of particles and rigid bodies; chaos and phase space; oscillatory motion, motion under a central force, and scattering off a central potential; non-inertial frames of reference; Lagrangian and Hamiltonian dynamics; coupled oscillations, normal modes, and continuum mechanics. Check out the course website for further details.
Undergraduate, Boston University, Physics Department, 2024
This course introduces students to special relativity, quantum mechanics, classical and quantum statistics, emphasizing scientific inquiry and critical thinking. Labs are a required course component. Check out the course website for further details.
Graduate, State University of Londrina, Physics Department, 2026
This lecture series provides a minimal yet practical toolkit for understanding and working with generalized symmetries from a categorical perspective. We will cover, among other topics, topological phases of matter in (2+1)D, topological quantum field theories, generalized symmetries in (1+1)D, and their concrete realizations in lattice models.