Institution

TRIUMF

Facility•Vancouver, British Columbia, Canada•

About: TRIUMF is a facility organization based out in Vancouver, British Columbia, Canada. It is known for research contribution in the topics: Large Hadron Collider & Neutron. The organization has 3306 authors who have published 5770 publications receiving 212931 citations. The organization is also known as: TRI University Meson Facility.

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Topics: Large Hadron Collider, Neutron, Lepton, Higgs boson, Neutrino ...read more

Papers published on a yearly basis

Papers

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Journal Article•DOI•

Measurement of the top quark pair cross section with ATLAS in pp collisions at √{ s} = 7 TeV using final states with an electron or a muon and a hadronically decaying τ lepton

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Georges Aad¹, Brad Abbott², J. Abdallah³, S. Abdel Khalek⁴ +2864 more•Institutions (179)

22 Oct 2012-Physics Letters B

TL;DR: In this article, the top quark pair cross section with ATLAS in pp collisions at root s = 7 TeV using final states with an electron or a muon and a hadronically decaying tau lepton.

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69 citations

Journal Article•DOI•

Penning-Trap Mass Measurements in Atomic and Nuclear Physics

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Jens Dilling¹, Jens Dilling², Klaus Blaum³, Maxime Brodeur⁴, Sergey Eliseev³ - Show less +1 more•Institutions (4)

University of British Columbia¹, TRIUMF², Max Planck Society³, University of Notre Dame⁴

19 Oct 2018-Annual Review of Nuclear and Particle Science

TL;DR: Penning-trap mass spectrometry has become a well-established and reliable tool for the determination of atomic masses as mentioned in this paper, in combination with short-lived radioactive nucl...

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Abstract: Penning-trap mass spectrometry in atomic and nuclear physics has become a well-established and reliable tool for the determination of atomic masses. In combination with short-lived radioactive nucl...

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68 citations

Journal Article•DOI•

Cross sections for hard exclusive electroproduction of pi(+) mesons on a hydrogen target

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A. Airapetian¹, N. Akopov², Z. Akopov², E. C. Aschenauer, W. Augustyniak, A. Avetissian², E. Avetissian³, L. Barion³, S. Belostotski⁴, N. Bianchi³, H. P. Blok, H. Böttcher, C. Bonomo³, A. Borissov⁵, V. Bryzgalov, J. Burns⁵, M. Capiluppi³, G.P. Capitani³, E. Cisbani³, G. Ciullo³, M. Contalbrigo³, P.F. Dalpiaz³, Wouter Deconinck¹, R. De Leo³, M. Demey, L. De Nardo⁶, E. De Sanctis³, M. Diefenthaler⁷, P. Di Nezza³, J. Dreschler, Michael Düren, M. Ehrenfried, G. Elbakian², Frank Ellinghaus⁸, Riccardo Fabbri, A. Fantoni³, S. Frullani³, D. Gabbert, G. Gapienko, V. A. Gapienko, F. Garibaldi³, G. Gavrilov⁴, G. Gavrilov⁶, V. Gharibyan², F. Giordano³, Stephen V. Gliske¹, H. Guler, C. Hadjidakis³, D. Hasch³, G. Hill⁵, A. Hillenbrand⁷, M. Hoek⁵, Ivana Hristova, Alexander Ilyichev, Y. Imazu⁹, A. Ivanilov, H. E. Jackson¹⁰, S. Joosten¹¹, Ralf Kaiser⁵, T. Keri, E. R. Kinney⁸, A. Kisselev⁴, A. Kisselev¹², M. Kopytin, V. A. Korotkov, P. Kravchenko⁴, V. G. Krivokhijine¹³, L. Lagamba³, R. Lamb¹², L. Lapikás, I. Lehmann⁵, P. Lenisa³, L. A. Linden-Levy¹², A. López Ruiz¹¹, Wolfgang Lorenzon¹, S. Lu, X. R. Lu⁹, David Mahon⁵, Naomi C R Makins¹², B. Marianski, H. Marukyan², C. A. Miller⁶, Y. Miyachi⁹, V. Muccifora³, Morgan Murray⁵, Andreas Mussgiller⁷, E. Nappi³, Y. Naryshkin⁴, A. Nass⁷, M. Negodaev, W.-D. Nowak, L. L. Pappalardo³, R. Perez-Benito, N. Pickert⁷, Martin Raithel⁷, P. E. Reimer¹⁰, A. R. Reolon³, C. Riedl³, Klaus Rith⁷, S. E. Rock, G. Rosner⁵, A. Rostomyan, L. Rubacek, J. G. Rubin¹², Dirk Ryckbosch¹¹, Y. Salomatin, Andreas Schäfer¹⁴, G. Schnell¹¹, K. P. Schüler, B. Seitz⁵, C. Shearer⁵, T. A. Shibata⁹, Vitaly Shutov¹³, M. Stancari³, M. Statera³, J. J. M. Steijger, Hasko Stenzel, J. Stewart, F. Stinzing⁷, J. Streit, S. Taroian², E. Thomas³, A. Trzcinski, Michael Tytgat¹¹, Arne Vandenbroucke¹¹, P. B. van der Nat, G. van der Steenhoven, Y. Van Haarlem¹¹, C. B. Van Hulse¹¹, M. Varanda, D. Veretennikov⁴, V. Vikhrov⁴, I. Vilardi³, C. Vogel⁷, Shan Wang¹⁵, S. Yaschenko⁷, H. Ye¹⁵, Zhenyu Ye, S. Yen⁶, W. Yu, D. Zeiler⁷, B. Zihlmann¹¹, P. Zupranski - Show less +139 more•Institutions (15)

University of Michigan¹, Yerevan Physics Institute², Istituto Nazionale di Fisica Nucleare³, Petersburg Nuclear Physics Institute⁴, University of Glasgow⁵, TRIUMF⁶, University of Erlangen-Nuremberg⁷, University of Colorado Boulder⁸, Tokyo Institute of Technology⁹, Argonne National Laboratory¹⁰, Ghent University¹¹, University of Illinois at Urbana–Champaign¹², Joint Institute for Nuclear Research¹³, University of Regensburg¹⁴, Peking University¹⁵

24 Jan 2008-Physics Letters B

TL;DR: The exclusive electroproduction of π + mesons was studied with the HERMES spectrometer at the DESY laboratory by scattering 27.6 GeV positron and electron beams off an internal hydrogen gas target.

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68 citations

Journal Article•DOI•

Computational nuclear quantum many-body problem: The UNEDF project

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Scott Bogner¹, Aurel Bulgac², Joseph Carlson³, Jonathan Engel⁴, George I. Fann⁵, Richard Furnstahl⁶, Stefano Gandolfi³, Gaute Hagen⁵, Mihai Horoi⁷, Calvin W. Johnson⁸, M. Kortelainen⁵, M. Kortelainen⁹, M. Kortelainen¹⁰, Ewing Lusk¹¹, Pieter Maris¹², Hai Ah Nam⁵, Petr Navrátil¹³, Petr Navrátil¹⁴, Witold Nazarewicz⁵, Witold Nazarewicz¹⁰, Witold Nazarewicz¹⁵, Esmond G. Ng¹⁶, Gustavo Nobre¹⁷, Erich Ormand¹³, Thomas Papenbrock¹⁰, Thomas Papenbrock¹⁸, Junchen Pei⁵, Junchen Pei¹⁰, Junchen Pei¹⁹, Steven C. Pieper¹¹, Sofia Quaglioni¹³, Kenneth J. Roche¹⁸, Kenneth J. Roche², Jason Sarich¹¹, Nicolas Schunck¹³, Masha Sosonkina²⁰, J. Terasaki⁴, J. Terasaki²¹, Ian J. Thompson¹³, James P. Vary¹², Stefan M. Wild¹¹ - Show less +37 more•Institutions (21)

01 Oct 2013-Computer Physics Communications

TL;DR: A wide range of UNEDF science results are showcased to illustrate that close associations among nuclear physicists, mathematicians, and computer scientists can lead to novel physics outcomes built on algorithmic innovations and computational developments.

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68 citations

Journal Article•DOI•

Very narrow shadow extra Z boson at colliders

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We-Fu Chang¹, John N. Ng, Jackson M. S. Wu²•Institutions (2)

Academia Sinica¹, TRIUMF²

01 Nov 2006-Physical Review D

TL;DR: In this article, the authors consider the phenomenological consequences of a hidden Higgs sector extending the standard model (SM), in which the shadow Higgs are uncharged under the SM gauge groups.

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Abstract: We consider the phenomenological consequences of a hidden Higgs sector extending the standard model (SM), in which the 'shadow Higgs' are uncharged under the SM gauge groups. We consider a simple U(1) model with one Higgs singlet. One mechanism which sheds light on the shadow sector is the mixing between the neutral gauge boson of the SM and the additional U(1) gauge group. The mixing happens through the usual mass mixing and also kinetic mixing, and is the only way the 'shadow Z' couples to the SM. We study in detail modifications that the presence of such shadow sector would bring to the electroweak precision tests, which in turn provide constraints on the kinetic-mixing parameter, s{sub {epsilon}}, left free in our model. The shadow Z production rate at the CERN LHC and the International Linear Collider depends on s{sub {epsilon}}. We find that the observable event rate at both facilities is possible for a reasonable range of s{sub {epsilon}} allowed by electroweak precision tests.

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68 citations

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Authors

Showing all 3316 results

Name	H-index	Papers	Citations
David Miller	203	2573	204840
A. Gomes	150	1862	113951
E. L. Barberio	143	1605	115709
P. Sinervo	138	1516	99215
António Amorim	136	1477	96519
Andreas Warburton	135	1578	97496
Georges Azuelos	134	1294	90690
Manuella Vincter	131	944	122603
M. Shimojima	129	1495	94688
George Redlinger	129	987	79411
Bernd Stelzer	129	1209	81931
Michel Vetterli	128	901	76064
Oliver Stelzer-Chilton	128	1141	79154
Isabel Marian Trigger	128	974	77594
Rodney Walker	128	894	76635