Particle theory

Quantum Gravity Constraints on Inflation

(2012)

Closing in on Asymmetric Dark Matter I: Model independent limits for interactions with quarks

ArXiv 1203.4854 (2012)

Authors:

John March-Russell, James Unwin, Stephen M West

Abstract:

It is argued that experimental constraints on theories of asymmetric dark matter (ADM) almost certainly require that the DM be part of a richer hidden sector of interacting states of comparable mass or lighter. A general requisite of models of ADM is that the vast majority of the symmetric component of the DM number density must be removed in order to explain the observed relationship $\Omega_B\sim\Omega_{DM}$ via the DM asymmetry. Demanding the efficient annihilation of the symmetric component leads to a tension with experimental limits if the annihilation is directly to Standard Model (SM) degrees of freedom. A comprehensive effective operator analysis of the model independent constraints on ADM from direct detection experiments and LHC monojet searches is presented. Notably, the limits obtained essentially exclude models of ADM with mass 1GeV$\lesssim m_{DM} \lesssim$ 100GeV annihilating to SM quarks via heavy mediator states. This motivates the study of portal interactions between the dark and SM sectors mediated by light states. Resonances and threshold effects involving the new light states are shown to be important for determining the exclusion limits.

Closing in on Asymmetric Dark Matter I: Model independent limits for interactions with quarks

(2012)

Authors:

John March-Russell, James Unwin, Stephen M West

FastJet user manual

European Physical Journal C Springer Nature 72:3 (2012) 1896

Authors:

Matteo Cacciari, Gavin P Salam, Gregory Soyez

Multigraph models for causal quantum gravity and scale dependent spectral dimension

ArXiv 1202.6322 (2012)

Authors:

Georgios Giasemidis, John F Wheater, Stefan Zohren

Abstract:

We study random walks on ensembles of a specific class of random multigraphs which provide an "effective graph ensemble" for the causal dynamical triangulation (CDT) model of quantum gravity. In particular, we investigate the spectral dimension of the multigraph ensemble for recurrent as well as transient walks. We investigate the circumstances in which the spectral dimension and Hausdorff dimension are equal and show that this occurs when rho, the exponent for anomalous behaviour of the resistance to infinity, is zero. The concept of scale dependent spectral dimension in these models is introduced. We apply this notion to a multigraph ensemble with a measure induced by a size biased critical Galton-Watson process which has a scale dependent spectral dimension of two at large scales and one at small scales. We conclude by discussing a specific model related to four dimensional CDT which has a spectral dimension of four at large scales and two at small scales.