Overview
Elementary Particle Physics
Research Focus
My research involves understanding the most basic building blocks of matter. At this point, we have a pretty good idea what matter is made of (quarks and leptons, at its base), but we don't really understand the relations between the parts or, in the language of particle physics, the symmetries that govern our current best theory. Some of the questions we are struggling with are: What is the origin of mass? Does the Higgs Boson explain it? Why is there a discrepancy between the number of matter and antimatter particles in the universe? What is the reason for the masses of the experimentally observed particles? Are the four forces we know about (gravity, strong, weak, electromagnetic) actually all manifestations of one unified force? How does gravity fit into quantum mechanics?
Understanding these relations is the goal of my current research at the CMS Experiment at the CERN LHC. My group is focused on exploiting LHC data and solving the many hard experimental problems that come up with the ever-increasing energies and event data rates with each new LHC data-taking period. We are a leading group in the CMS track trigger, and are also a leading group in using high-performance computing technologies, such as GPUs, in particle physics reconstruction.
With the discovery of the Higgs Boson in 2012 and the start of data-taking at higher energies, this is a very dynamic time to do particle physics. We’re always looking for new faces, too.
Graduate Students
Alec Duquette, Gavin Niendorf
Past Graduate Students
Jorge Chaves, Kevin McDermott, Stephen Poprocki, Darren Puigh, Don Teo. Margaret Zientek
Awards and Honors
- Alfred P. Sloan Fellow (2007)
- Laureate, Fundamental Physics Breakthrough Prize (2015)
Professional Experience
- Postdoctoral Fellow, University of Pennsylvania, 2000-2005.
- Assistant Professor, Physics, Cornell University, 2005-2011.
- Associate Professor, Cornell University, 2011-2017.
- Professor, Cornell University, 2017- present.
Publications
Kalman-Filter-Based Particle Tracking on Parallel Architectures at Hadron Colliders, P. Wittich et al., Submitted to Proceedings for the 2015 IEEE NSS/MIC Conference, San Diego, CA. arXiv:1601.08245
Dark Sectors 2016 Workshop: Community Report, J. Alexander et al., arXiv:1608.08632 (2016).
FPGA-Based Tracklet Approach to Level-1 Track Finding at CMS for the HL-LHC, M. Zientek et al., Proceedings of Connecting the Dots/Intelligen Trackers 2017 Workshop (CTD/WIT 2017) https://doi.org/10.1051/epjconf/201715000016
Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC, CMS Collaboration, PLB 716 30 (2012) doi:10.1016/j.physletb.2012.08.021.
Measurement of the charged current interactions produced by 8B solar neutrinos at the Sudbury Neutrino Observatory, SNO Collaboration, Q. R. Ahmad et al., Phys. Rev. Lett. 87, 071301 (2001).
In the news
- Cornell takes role in advancing software at CERN
- $3.8M NSF grant begins a new era of early universe research
- Panelists explore ‘Science of the Very, Very Small’
- Science of the very, very small featured in next Arts Unplugged
- Cornell part of $25M NSF effort to untangle future physics data
- In Search of New Physics Phenomena
- Physicist's experiments resolve nature of neutrinos
