HMC Physics Colloquium
Tuesdays at 16:30 in Shanahan Center for Teaching and Learning, Room B460
April 10, 2018
The fact that the universe is made entirely out of matter, and contains no free anti-matter, has no
physical explanation. While we cannot currently say what process created the matter in the universe,
we know that it must violate a number of fundamental symmetries, including those that
forbid the existence of certain electromagnetic moments of fundamental particles. We can search
for signatures of these electromagnetic moments via precision measurements in polar molecules,
whose extremely large internal electromagnetic fields can significantly amplify these moments.
These effects would necessarily arise from physics beyond the Standard Model, which enables tabletop
searches for new, symmetry-violating particles and forces. With modern, quantum science techniques
to control polar molecules, these searches can currently reach into the TeV scale, and offer
many routes to even higher scales. In this talk, I will discuss our lab's approach to performing these
tabletop measurements with polyatomic molecules, whose complex structure offers a unique opportunity
to combine robust precision measurement techniques with laser cooling and trapping.
This allows us to build experiments with sensitivity to a variety of new physics sectors, and a route
to exploring the PeV scale.