Rubin-LSST

A persistent ultraviolet outflow from the accretion disc in a transient neutron star binary

Authors:

Noel Castro Segura, Christian Knigge, Knox Long, Diego Altamirano, Montserrat Armas Padilla, Charles Bailyn, David Buckley, Douglas Buisson, Jorge Casares, Phil Charles, Jorge Combi, Virginia A Cúneo, Nathalie Degenaar, Santiago del Palacio, Maria Diaz Trigo, Rob Fender, Poshak Gandhi, Claudia Gutíerrez, Juan Hernández Santisteban, Felipe Jiménez Ibarra, James Matthews, Mariano Mendez, Matthew Middleton, Teo Muñoz Darias, Mehtap Özbey Arabaci, Mayukh Pahari, Lauren Rhodes, Thomas Russell, Simone Scaringi, Jakob van den Eijden, Georgios Vasilopolulos, Federico Vincentelli, Phil Wiseman

A search for ttbar resonances in the lepton plus jets final state with ATLAS using 4.7 fb^{-1} of pp collisions at sqrt{s} = 7 TeV

Abstract:

A search for new particles that decay into top quark pairs (ttbar) is performed with the ATLAS experiment at the LHC using an integrated luminosity of 4.7 fb^-1 of proton-proton (pp) collision data collected at a center-of-mass energy sqrt(s)=7 TeV. In the ttbar --> WbWb decay, the lepton plus jets final state is used, where one W boson decays leptonically and the other hadronically. The ttbar system is reconstructed using both small-radius and large-radius jets, the latter being supplemented by a jet substructure analysis. A search for local excesses in the number of data events compared to the Standard Model expectation in the ttbar invariant mass spectrum is performed. No evidence for a ttbar resonance is found and 95% credibility-level limits on the production rate are determined for massive states predicted in two benchmark models. The upper limits on the cross section times branching ratio of a narrow Z' resonance range from 5.1 pb for a boson mass of 0.5 TeV to 0.03 pb for a mass of 3 TeV. A narrow leptophobic topcolor Z' resonance with a mass below 1.74 TeV is excluded. Limits are also derived for a broad color-octet resonance with Gamma/m = 15.3%. A Kaluza-Klein excitation of the gluon in a Randall-Sundrum model is excluded for masses below 2.07 TeV.

AION: An Atom Interferometer Observatory and Network

Authors:

L Badurina, E Bentine, D Blas, K Bongs, D Bortoletto, T Bowcock, K Bridges, W Bowden, O Buchmueller, C Burrage, J Coleman, G Elertas, J Ellis, C Foot, V Gibson, Mg Haehnelt, T Harte, S Hedges, R Hobson, M Holynski, T Jones, M Langlois, S Lellouch, M Lewicki, R Maiolino, P Majewski, S Malik, J March-Russell, C McCabe, D Newbold, B Sauer, U Schneider, I Shipsey, Y Singh, Ma Uchida, T Valenzuela, M van der Grinten, V Vaskonen, J Vossebeld, D Weatherill, I Wilmut

Abstract:

We outline the experimental concept and key scientific capabilities of AION (Atom Interferometer Observatory and Network), a proposed UK-based experimental programme using cold strontium atoms to search for ultra-light dark matter, to explore gravitational waves in the mid-frequency range between the peak sensitivities of the LISA and LIGO/Virgo/ KAGRA/INDIGO/Einstein Telescope/Cosmic Explorer experiments, and to probe other frontiers in fundamental physics. AION would complement other planned searches for dark matter, as well as probe mergers involving intermediate mass black holes and explore early universe cosmology. AION would share many technical features with the MAGIS experimental programme in the US, and synergies would flow from operating AION in a network with this experiment, as well as with other atom interferometer experiments such as MIGA, ZAIGA and ELGAR. Operating AION in a network with other gravitational wave detectors such as LIGO, Virgo and LISA would also offer many synergies.

Cloud computing and the Square Kilometer Array

Authors:

JC Tseng, Newman R

Combined CDF and D0 Upper Limits on Standard Model Higgs Boson Production with up to 8.2 fb$^-1$ of Data

Authors:

T Aaltonen, others