My research

Research interests

Research history

Previously as a graduate student at Penn, working with ATLAS Experiment at CERN, I helped commission the Transition Radiation Tracker (TRT), a sub-detector of the ATLAS tracker, during the start-up of the Large Hadron Collider (LHC) in 2009-2012. On July 4 of 2012, the ATLAS and CMS experiments both announced discovering a new particle consistent with the long-sought-after Higgs boson, a key to explaining electroweak symmetry breaking in the Standard Model of particle physics.

I continued to work in the ATLAS Experiment as a postdoc at the Santa Cruz Institute for Particle Physics (SCIPP). I’ve spent 10 years romping through datasets from ATLAS, learning how to explore and model large, multidimentional datasets. I have a knack for developing data analysis frameworks and an eye for technical detail and good scholarship. I am passionate about using scientific techniques to solve important problems and about how technologies extend our reach.

A display of a pp → tt → bb\mu\tau event in ATLAS in 2011.

Many theories of physics beyond the Standard Model have revolutionary implications for the concepts of symmetry and space-time, and for our understanding of the early universe.

Searching for new physics in collider data involves detecting rare events among many, requiring big data reductions, data-driven background modeling, and severe statistical hypothesis testing.

A figure I drew with Kyle Cranmer of the big-picture of the flow of ATLAS data.

In physics, my research has primarily focused on supporting and optimizing the reconstruction of hadronic tau decays, and searching for exotic new physics in ditau and diphoton events, including for signs of grand unified theories and supersymmetry.

Since about 2015, following the deep learning revolution, I’ve been trying to learn everything I can about deep learning. I’ve worked in computer vision, machine translation, and large-scale language modeling.

Current projects I am focused on

Previous focuses

Curriculum Vitae

Ph.D. thesis

My graduate research in particle physics was on the reconstruction and identification of hadronic tau decays with the ATLAS experiment, measuring the Z→ττ production cross section in proton-proton collisions at √s = 7 TeV, and searching for new physics in high-mass ditau events.

        Download my thesis here