Matthew Cantor
Undergraduate
Profile
Hometown: Queens, NY
Three favorite Physics courses and why:
- Ph 6/7: The sophomore lab classes were an amazing opportunity to get your hands dirty with real physics and data analysis. We conducted a wide range of experiments spanning topics such as quantum mechanics, nuclear physics, circuitry, and several historically significant experiments (like the Stern-Gerlach experiment, which provided the first evidence for electron spin!).
- Ph 137b: This quantum optics course was an incredible way to learn both the formalism of the field and what current research in AMO physics looks like. In addition to learning interesting theory, we also worked through research papers to follow their derivations and better understand their experiments. It was a very rewarding class!
- APh/EE 109: The introduction to Micro/Nanofabrication lab was a great course that presented various fabrication techniques in an accessible way. From using electron beam lithography to pattern a chip to fabricating an LED from scratch, this lab was an incredible introduction to cleanroom work.
Labs or projects you have worked in/on during your time at Caltech: I am currently working in Dr. Mirhosseini's Quantum Engineering Lab, where my project focuses on developing a self-assembled optomechanical crystal that couples mechanical and optical modes. Previously, I worked in Dr. Nadj-Perge's Lab fabricating 2D van der Waals heterostructures, particularly dual-gated bilayer graphene devices. Before that, I worked in Dr. Golwala's Lab developing stochastic simulations of phonons and quasiparticles in kinetic inductance detectors.
Hobbies outside of academics: Outside of academics, I love exploring new cities, watching Architectural Digest videos, and hiking. I'm also a huge beach bum and will never pass up the chance to play volleyball!
Favorite study spot/s on campus: I love studying in the lounge area of Downs/Lauritsen and Dabney Hall Library.
What drew you to Physics as an option: I chose physics for its incredible power to describe the real world through math.