Brian Shuve

Brian Shuve's picture
Phd: Harvard 2012

Area of Research:
Phone: x7028

Research Interests

One aspect of my research focuses on the interplay between particle physics and cosmology. While the Standard Model has been very successful in withstanding scrutiny from high-energy collider experiments and low-energy intensity frontier experiments, it accounts for neither the dark matter which dominates the universe's matter content, nor the baryon asymmetry which explains the observed abundance of visible matter. I work on developing and understanding models of dark matter and/or baryogenesis, focusing on theories with implications at and below the electroweak scale for a wide range of different high-energy, low-energy, and astrophysical experiments. I am also interested in models where the dynamics of dark matter and baryogenesis are related to one another, such as models of asymmetric dark matter, baryogenesis via interactions with dark matter, and baryogenesis through neutrino oscillations with connections to sterile neutrino dark matter.

It is also important to consider how to maximize the sensitivity of current and planned experiments to physics beyond the Standard Model. This includes looking for physics that is challenging to see at the LHC, either because of large Standard Model backgrounds, or because the experiments are not optimally configured for such signatures. Examples I've worked on and am continuing to study include using jet substructure to study boosted hadronic resonances and final states with large multiplicities of leading order partons, as well as electroweak production of new particles decaying to tau leptons, jets, or invisible states. Thorough surveys of such examples of new physics are important to ensure that collider experiments maximally probe models of physics around the electroweak scale, and determining gaps in LHC coverage provides motivation for a cleaner collider environment, such as a linear collider.

Recent Publications

  • Brian Shuve, Itay Yavin, "A Dark Matter Progenitor: Light Vector Boson Decay into (Sterile) Neutrinos", Phys.Rev. D89 (2014) 113004, arXiv: 1403.2727.
  • Brian%20Shuve%2C%20Itay%20Yavin%2C%20%22A%20Dark%20Matter%20Progenitor%3A%20Light%20Vector%20Boson%20Decay%20into%20(Sterile)%20Neutrinos%22%2C%20Phys.Rev.%20D89%20(2014)%20113004%2C%20arXiv%3A1403.2727.
  • Brian Shuve, Itay Yavin, "Baryogenesis through Neutrino Oscillations: A Unified Perspective", Phys. Rev. D89 (2014) 075014, arXiv: 1401.2459.
  • Brian%20Shuve%2C%20Itay%20Yavin%2C%20%22Baryogenesis%20through%20Neutrino%20Oscillations%3A%20A%20Unified%20Perspective%22%2C%20Phys.%20Rev.%20D89%20(2014)%20075014%2C%20arXiv%3A1401.2459.
  • Jia%20Liu%2C%20Brian%20Shuve%2C%20Neal%20Weiner%2C%20Itay%20Yavin%2C%20%22Looking%20for%20new%20charged%20states%20at%20the%20LHC%3A%20Signatures%20of%20Magnetic%20and%20Rayleigh%20Dark%20Matter%22%2C%20JHEP%201307%20(2013)%20144%2C%20arXiv%3A1303.4404
  • David%20Curtin%2C%20Rouven%20Essig%2C%20Brian%20Shuve%2C%20%22Boosted%20Multijet%20Resonances%20and%20New%20Color-Flow%20Variables%22%2C%20Phys.%20Rev.%20D88%20(2013)%20034019%2C%20arXiv%3A1210.5523
  • Eder Izaguirre, Gordan Krnjaic, Brian Shuve, "The Galactic Center Excess from the Bottom Up", arXiv: 1404.2018.


  • PIRSA:13020145, Closing Summary Talks, 2013-02-23, Applications of Jet Substructure 2013
  • PIRSA:13010104, Boosted Multijet Resonances and New Color-Flow Variables, 2013-01-15, Particle Physics
  • PIRSA:11110060, A WIMPy Baryogenesis Miracle, 2011-11-15, Particle Physics