Kathryn Zurek (UCB/LBNL) “Is quantum gravity observable in interferometers?”
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Event Category: 4D Seminar
Grant Remmen (UCB) “Entropy Bounds on Effective Field Theory from Rotating Dyonic Black Holes”
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Philip Schuster (SLAC) “Direct Deflection of Dark Matter”
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Abstract: I’ll describe a set of simple methods to directly search for sub-MeV particle dark matter using strong electric and magnetic fields. As an application, I’ll describe how these methods can provide sensitivity to the freeze-in (through ultra-light mediator) dark matter parameter space below ~MeV. I’ll also comment on how existing and planned experiments can be adapted to make progress … Read More
Josh Eby (Weizmann Institute) “Inelastic Dark Matter in Neutrino Detectors”
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Abstract: Direct searches for TeV-scale Dark Matter (DM) are extremely powerful. However, existing constraints become increasingly weak when the dominant scatteringis inelastic, and they disappear completely when the mass splitting $\delta$ between nearby DM states exceeds $350$ keV. In this work, we show how this âinelastic frontierâ can be probed when the DM upscatters against heavy elements in the Earth. … Read More
Jeff Dror (UCB) ” Absorbing Fermionic Dark Matter”
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Abstract: Current dark matter direct detection searches can be split into two broad classes: elastic scattering and absorption, with the latter reserved purely for bosonic dark matter. In this work, we study a new class of signal: absorption of fermionic dark matter. We present the lowest-dimension operators which make this possible, their implications, and their simple UV completions. Most importantly, … Read More
Ofri Telem (UCB) “Gauge Anomalies in an Effective Field Theory, the On-Shell Way”
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In a seminal paper, John Preskill showed how gauge theories in the Higgs phase can couple consistently to anomalous matter content. This formulation is complementary to the traditional approach in which gauge theories with an anomalous fermion content necessitate gauged-WZW terms that cancel the fermion anomaly. The gauge invariant statement that follows is that anomalous theories in the Higgs phase … Read More
Iain Stewart (MIT) “Transverse Momentum Distributions: Infrared Connections between Euclidean and Minkowski Correlators”
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In this talk I will discuss the transverse momentum distribution of partons inside a proton, which are encoded by transverse-momentum dependent parton distribution functions (TMDPDFs). These TMDPDFs are important for predicting LHC cross sections, like the momentum spectrum for Higgs bosons or Drell-Yan, and also provide a means to probe the nature of confinement. The field theory definition of TMDPDFs … Read More
Pablo Quilez (Universidad Autónoma de Madrid (UAM) & Instituto de FÃsica Teórica (IFT) “On the Peccei-Quinn quality problem”
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Abstract: In this seminar I will review the Peccei-Quinn quality problem and comment of different possible solutions and some weaknesses of the usual argument.
David Shih (Rutgers) “How to Look for New Physics When You Don’t Know What You’re Looking For”
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Abstract: Conventional methods for searching for new physics at the LHC have mostly been “top-down”: starting from a specific model, searches are designed and optimized to have the best sensitivity to that model. Despite hundreds of conventional new physics searches at the LHC, none have turned up any hint of new physics. Maybe it’s time to admit that we don’t … Read More
Keith Olive (University of Chicago) “Building models of Inflation in No-Scale Supergravity”
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The construction of inflationary models in the context of no-scale supergravity is discussed. The connection between no-scale models and R+R^2 gravity models is emphasized allowing for the construction of Starobinsky-like models of inflation. General constructions of Minkowski and deSitter vacua in no-scale supergravity is also discussed. In this context it is possible to include supersymmetry breaking and a residual cosmological … Read More