This summer, I am continuing a measurement with the LArIAT collaboration at Fermilab. LArIAT is a test beam experiment, meaning that it measures interactions from a beam of known particles, including, protons, electrons, pions, muons, and kaons. The results from LArIAT will calibrate this detector type (a Liquid Argon Time Projection Chamber, or LArTPC) for the upcoming DUNE neutrino experiment, which is a LArTPC that will be built in the next few years. My contribution is a measurement of the hadronic cross section of the pion absorption interaction in liquid argon, which will help to disentangle nuclear effects in neutrino interactions that involve a pion in the argon nucleus. I am using a Monte Carlo simulation to develop the selection algorithm for pion absorption candidates among all of the LArIAT particle events, and my goal is to apply the selection cuts to the data by the end of the summer to have a preliminary measurement result. Since this work is all computational, I am able to carry out this research remotely in my hometown.
Attached is a picture of the Fermilab accelerator complex. It is far more interesting than a picture of me on my computer in my office :). The second picture is of the LArIAT experiment while it still took data in the Test Beam Facility (it stopped taking data in 2017).