Kevin Black

Kevin Black

Office: PRB, Room 371. 617-358-6241

Office Hours: Tu: 10-12:30, SCI B39


Research Interests:

Experimental High Energy Physics


B.A. Wesleyan University Ph.D. Boston University


Kevin Black received his Ph.D. in experimental high energy physics from Boston University in 2005. His work there focused on a measurement of the top quark mass and development of the D0 trigger system. His post-doctoral research at Harvard University focused on direct searches for new phenomena at the ATLAS experiment at the CERN Large Hadron Collider. He has also extensively worked on the software to reconstruct events with the large and complex ATLAS detector. He is an author of numerous publications in refereed journals and is actively involved in the extraction of first physics results from ATLAS using early LHC data.

Associate Professor, BU


In the news:


Research Descriptions:

The ATLAS Experiment at CERN


The ATLAS experiment is a large detector system developed by a collaboration of physicists from around the world to study very-high-energy proton-proton interactions at the Large Hadron Collider (LHC) at CERN, a laboratory for high energy physics near Geneva, Switzerland. This experiment will probe the origins of electroweak symmetry breaking and the particles associated with the new physics (such as the hypothetical Higgs Boson) that must appear at energies at the symmetry breaking scale. Boston University personnel were involved in the construction and installation of the muon detectors for ATLAS. The detectors occupy a region the size of a five-story building and will measure the trajectories of muons in a magnetic field with a precision of better than 1/10 of a millimeter. This permits the determination of the muon momentum, which will be an important ingredient in searches for new phenomena at the LHC's energy scale, which will be an order of magnitude greater than currently available. Boston University also played a leading role in the development of computing and analysis tools that have been crucial since the experiment's inception. It is expected that many important discoveries in particle physics will be made at the LHC in the coming decade. These discoveries will improve our understanding of the fundamental particles and their interactions, and also of the nature of the early universe. One important goal of the LHC is to search for particles that may be responsible for the so-called "dark matter" of the universe. Possible candidates for this mysterious phenomenon are the particles associated with supersymmetry theories.