Karl Gill

Researcher at CERN

Publications - 1289

Citations - 115405

Karl Gill is an academic researcher from CERN. The author has contributed to research in topics: Large Hadron Collider & Lepton. The author has an hindex of 133, co-authored 1151 publications receiving 101139 citations. Previous affiliations of Karl Gill include Université libre de Bruxelles & University of Cantabria.

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Observation of Gravitational Waves from a Binary Black Hole Merger

B. P. Abbott, +1011 more

- 11 Feb 2016 -

Physical Review Letters

TL;DR: This is the first direct detection of gravitational waves and the first observation of a binary black hole merger, and these observations demonstrate the existence of binary stellar-mass black hole systems.

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Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC

S. Chatrchyan, +2863 more

- 17 Sep 2012 -

Physics Letters B

TL;DR: In this paper, results from searches for the standard model Higgs boson in proton-proton collisions at 7 and 8 TeV in the CMS experiment at the LHC, using data samples corresponding to integrated luminosities of up to 5.8 standard deviations.

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GW170817: observation of gravitational waves from a binary neutron star inspiral

B. P. Abbott, +1134 more

- 16 Oct 2017 -

Physical Review Letters

TL;DR: The association of GRB 170817A, detected by Fermi-GBM 1.7 s after the coalescence, corroborates the hypothesis of a neutron star merger and provides the first direct evidence of a link between these mergers and short γ-ray bursts.

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Combined Measurement of the Higgs Boson Mass in pp Collisions at √s=7 and 8 TeV with the ATLAS and CMS Experiments

Georges Aad, +5120 more

- 14 May 2015 -

Physical Review Letters

TL;DR: A measurement of the Higgs boson mass is presented based on the combined data samples of the ATLAS and CMS experiments at the CERN LHC in the H→γγ and H→ZZ→4ℓ decay channels.

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Tests of general relativity with GW150914

B. P. Abbott, +979 more

- 31 May 2016 -

Physical Review Letters

TL;DR: It is found that the final remnant's mass and spin, as determined from the low-frequency and high-frequency phases of the signal, are mutually consistent with the binary black-hole solution in general relativity.

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