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Tevatron Run II combination of the effective leptonic electroweak mixing angle

Author: A. A. and Jones
A. A. and Shears
A. B. and Wilbur
A. F. and Garosi
A. K. A. and Madar
A. L. and Lys
A. M. and Zeng
A. P. and Heintz
A. S. and Ivanov
A. S. and Sato
A. T. and Goulianos
A. T. and Lammel
A. V. and Kozelov
A. V. and Kraus
A. V. and Poprocki
A. W. and Junk
A. Y. and Vernieri
A. and Amerio
A. and Annovi
A. and Antos
A. and Asaadi
A. and Atkins
A. and Aushev
A. and Barberis
A. and Bedeschi
A. and Beri
A. and Bland
A. and Bodek
A. and Boehnlein
A. and Boline
A. and Brandt
A. and Brandt
A. and Brown
A. and Calamba
A. and Camacho-Perez
A. and Catastini
A. and Cerrito
A. and Chapon
A. and Clarke
A. and d'Ascenzo
A. and Di Ruzza
A. and Donati
A. and Drutskoy
A. and Dubey
A. and Dudko
A. and Dutt
A. and Ellison
A. and Evdokimov
A. and Feng
A. and Garcia-Gonzalez
A. and Golovanov
A. and Grosso-Pilcher
A. and Harr
A. and Hoeneisen
A. and Jabeen
A. and Jayatilaka
A. and Kajfasz
A. and Kato
A. and Kharchilava
A. and Kharzheev
A. and Kupco
A. and Kurata
A. and Lincoln
A. and Liu
A. and Lockwitz
A. and Lokajicek
A. and Lueck
A. and Mansour
A. and Mazzanti
A. and Mehtala
A. and Menezes
A. and Meyer
A. and Miyake
A. and Mulhearn
A. and Narain
A. and Palencia
A. and Pauletta
A. and Prewitt
A. and Quinn
A. and Rodriguez
A. and Royon
A. and Russ
A. and Sanders
A. and Sawyer
A. and Severini
A. and Skubic
A. and Suslov
Aaltonen
And Manousakis-Katsikakis
B. A. and Barria
B. C. K. and Castilla-Valdez
B. L. and Wittich
B. S. and Adams
B. and Acharya
B. and Augsten
B. and Bandurin
B. and Bocci
B. and Carlsmith
B. and Casarsa
B. and Cihangir
B. and Diehl
B. and Evans
B. and Hogan
B. and Jeon
B. and Kim
B. and Perfilov
B. and Ratoff
B. and Tully
B. and Zhou
C. A. and Cox
C. E. and Gerberich
C. L. and McNulty
C. M. and Ginther
C. P. and Butti
C. P. and Yi
C. R. and Snow
C. S. and Moore
C. and Azfar
C. and Bross
C. and Clutter
C. and DeVaughan
C. and Garbincius
C. and Gruenendahl
C. and Hays
C. and Heredia-De La Cruz
C. and Meyer
C. and Pal
C. and Penning
C. and Pleier
C. and Rubinov
C. and Saveliev
C. and Schwarz
C. and Ukegawa
C. and Verkheev
C. and Vertogradov
C. and Wang
C. and Zhu
D. A. and Strauss
D. H. and Kim
D. J. and Cremonesi
D. J. and Konigsberg
D. R. and Wright
D. V. and Banerjee
D. and Anastassov
D. and Beretvas
D. and Boos
D. and Borysova
D. and Brucken
D. and Carosi
D. and Cavaliere
D. and Choudhary
D. and Clark
D. and Cuevas
D. and Das
D. and Denisov
D. and Elagin
D. and Gogota
D. and Golossanov
D. and Hegab
D. and Jayasinghe
D. and Kasmi
D. and Li
D. and Linnemann
D. and Luca
D. and Mercadante
D. and Mitra
D. and Prokopenko
D. and Stoyanova
D. and Tokar
D. and Torre
D. and Totaro
D. and Tuchming
D. and Vilar
D. and Watts
D. and Wicklund
D. and Yang
D. and Zivkovic
E. E. and Borisov
E. E. and Johnson
E. E. and Schott
E. J. and Jeong
E. W. and Vasilyev
E. and Baringer
E. and Bu
E. and Camarda
E. and Chen
E. and Deliot
E. and Gershtein
E. and Grannis
E. and Jang
E. and Kambeitz
E. and Lipton
E. and Nakano
E. and Palni
E. and Pilot
E. and Shalhout
E. and Thukral
F. D. and Snow
F. F. and Uozumi
F. and Badaud
F. and Badgett
F. and Begalli
F. and Carls
F. and Cousinou
F. and Demina
F. and Di Canto
F. and Field
F. and Fisher
F. and Hara
F. and Marino
F. and Mietlicki
F. and Ptohos
F. and Punzi
F. and Ripp-Baudot
F. and Robson
F. and Ruiz
F. and Seidel
F. and Shabalina
F. and Velev
G. B. and Yu
G. D. and Alkhazov
G. W. and Wilson
G. and Alton
G. and Appel
G. and Bellinger
G. and Bernhard
G. and Blessing
G. and Bonoletto
G. and Bussey
G. and Chen
G. and Chlachidze
G. and Cho
G. and de Barbaro
G. and Forrest
G. and Giokaris
G. and Gomez
G. and Gomez-Ceballos
G. and Goncharov
G. and Gris
G. and Gutierrez
G. and Hildreth
G. and Iori
G. and Lebrun
G. and Lyon
G. and Paulini
G. and Petroff
G. and Pianori
G. and Qian
G. and Sakumoto
G. and Vellidis
G. and Wagner
G. and Wayne
H. A. and Negret
H. D. and Wallny
H. E. and Flanagan
H. H. and Fuess
H. H. and Williams
H. S. and Buehler
H. S. and Kim
H. S. and Lee
H. S. and Lee
H. T. and Diesburg
H. T. and Nigmanov
H. and Castro
H. and Evdokimov
H. and Franc
H. and Gerchtein
H. and Grenier
H. and Heinrich
H. and Li
H. and Liu
H. and Moed
H. and Schlabach
H. and Sforza
H. and Sonnenschein
H. and Wood
H. and Yip
I. A. and Vazquez
I. and Besancon
I. and Fernandez
I. and Goshaw
I. and Hendon
I. and Hubacek
I. and Ilchenko
I. and Kaur
I. and Kohli
I. and Napier
I. and Ristori
I. and Simak
I. and Suter
I. and Yu
I. Redondo and Renton
Iii
J. -F. and Grohscjean
J. A. and Arisawa
J. A. and Garfinkel
J. C. and Frisch
J. D. and Hocker
J. D. and Li
J. E. and Kim
J. F. and Bartos
J. J. M. and Zanetti
J. J. and Budd
J. J. and Franklin
J. J. and Kotwa
J. K. and Limosani
J. L. and Hong
J. L. and Ross
J. M. and Hays
J. M. and Kondo
J. P. and Alexeev
J. P. and Nett
J. P. Fernandez and Fiedler
J. R. and Dominguez
J. R. and Snider
J. S. and Lee
J. S. and Wilson
J. Y. and Han
J. and Apollinari
J. and Ashmanskas
J. and Benjamin
J. and Boveia
J. and Convery
J. and Cooke
J. and Culbertson
J. and Cutts
J. and Elvira
J. and Han
J. and Head
J. and Heinson
J. and Hohlfeld
J. and Hynek
J. and Jun
J. and Khalatyan
J. and Kreps
J. and Kruse
J. and Leo
J. and Lipaev
J. and Lujan
J. and Lysak
J. and Marchese
J. and Matera
J. and Miao
J. and Nagai
J. and Nagy
J. and Neustroev
J. and Ortolan
J. and Pitts
J. and Quadt
J. and Rusu
J. and Semenov
J. and Snyder
J. and Stetaniuk
J. and Sudo
J. and Tecchio
J. and Thomson
J. and Vogel
J. and Waters
J. and Welty-Rieger
J. and Yorita
J. and Zhao
J. and Zielinski
J. Guimaraes and Gutierrez
K. K. and Aurisano
K. K. and Joshi
K. M. and Chandra
K. R. and Blazey
K. and Blumenfeld
K. and Busetto
K. and Cho
K. and Devoto
K. and Edgar
K. and Ginsburg
K. and Gramellini
K. and Harder
K. and Hare
K. and Hauptman
K. and Hesketh
K. and Johnson
K. and Kong
K. and Latino
K. and Mattson
K. and Petrillo
K. and Plager
K. and Pranko
K. and Savage
K. and Smith
K. and St Denis
K. and Takeuchi
K. and Tomura
K. and Yamato
K. and Yin
K. and Yoh
K. and Yoshida
L. L. and Happacher
L. S. and Verzocchi
L. V. and Duperrin
L. and Baldin
L. and Bellettini
L. and Brochmann
L. and Chakrabarti
L. and Deninno
L. and Ferbel
L. and Li
L. and Margaroli
L. and Noh
L. and Oh
L. and Osman
L. and Popov
L. and Rizatdinova
L. and Santos
L. and Scanlon
L. and Scuri
L. and Sorin
L. and Svoisky
L. and Uvarov
L. and Wester
L. and Zucchelli
M. -A. and Podstavkov
M. -C. and Cox
M. D. and Hirosky
M. E. and Mazzacane
M. H. L. S. and Wang
M. J. and Kim
M. J. and Mukherjee
M. M. E. and Conway
M. M. P. and Santi
M. M. and Cooper
M. M. and Melnitchouk
M. R. J. and Wilson
M. S. and Jesik
M. W. and Guillemin
M. and Adams
M. and Bazterra
M. and Behari
M. and Beuselinck
M. and Boudreau
M. and Brock
M. and Buescher
M. and Canelli
M. and Casey
M. and Chiarelli
M. and Corcoran
M. and Cordelli
M. and Couderc
M. and Cruz
M. and Davies
M. and de Sa
M. and Denisov
M. and Desai
M. and Ding
M. and Dorigo
M. and Driutti
M. and Ebina
M. and Fox
M. and Freeman
M. and Goldin
M. and Harel
M. and Herner
M. and Holzbauer
M. and Huston
M. and Ito
M. and James
M. and Jonckheere
M. and Jonsson
M. and Kamon
M. and Kehoe
M. and Kiselevich
M. and Kroll
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M. and Price
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M. and Savoy-Navarro
M. and Schwanenberger
M. and Shkola
M. and Shreyber-Tecker
M. and Stark
M. and Strologas
M. and Teng
M. and Toback
M. and Tsai
M. and Vesterinen
M. and Vidal
M. and Vilanova
M. and Vokac
M. and Weichert
M. and Wolbers
M. and Zieminska
Manca G.
N. K. and Moon
N. and Datta
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N. and Mondal
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N. and Patwa
N. and Prokoshin
N. and Stentz
N. and Varnes
O. and Brigliadori
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O. and Shochet
O. Gonzalez and Gorelov
P. C. and Bhatia
P. D. and Greder
P. E. and Karmanov
P. F. and Dittmann
P. F. and Shimojima
P. G. and Merkin
P. H. and Garcia-Bellido
P. K. and Thom
P. N. and Razumov
P. and Barnes
P. and Bartlett
P. and Bassler
P. and Buszello
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P. and Caughron
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P. and Lukens
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Ph. and Grivaz
Q. Z. and Lim
Q. and Liu
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S. H. and Kim
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S. M. and Warchol
S. P. and D'Errico
S. R. and Haley
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S. W. and Lee
S. W. and Yu
S. Y. and Jung
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S. and Bellantoni
S. and Bhatnagar
S. and Bloom
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S. and Cauz
S. and CDF Collaboration and D0 Collaboration
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S. and Chokheli
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S. and Uzunyan
S. and Van Kooten
S. and Williams
S. and Wolfmeister
S. and Yang
T. G. and Zhou
T. J. and Piacentino
T. R. and Juste
T. R. and Xiang
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T. and Agnew
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T. and Kuzmin
T. and Liu
T. and Miconi
T. and Nodulman
T. and Oakes
T. and Orava
T. and Ramos
T. and Rolli
T. and Schamberger
T. and Schwienhorst
T. and Shepard
T. and Tonelli
T. and Wu
T. and Yang
T. and Yatsunenko
T. and Youn
Th. and Murat
U. K. and Yang
U. and Bauce
U. and Hensel
U. and Hussein
V. A. and Laasanen
V. D. and Enari
V. E. and Barnett
V. L. And
V. M. and Abbott
V. M. and Pondrom
V. N. and Farrington
V. V. and Lipeles
V. V. and Sajot
V. V. and Tollefson
V. and Aushev
V. and Bean
V. and Bhatti
V. and Bunichev
V. and Burdin
V. and Cerri
V. and Geng
V. and Gibson
V. and Glenzinski
V. and Iashvili
V. and Parashar
V. and Park
V. and Savitskyi
V. and Shaw
V. and Simonenko
V. and Soustruznik
V. and Titov
W. -M. and Yasuda
W. C. and Whiteson
W. E. and Corbo
W. K. and Sakurai
W. M. and Lei
W. M. and Varelas
W. and Askew
W. and Bae
W. and Fisk
W. and Gerber
W. and Hou
W. and Keung
W. and Partridge
W. and Ye
X. B. and Budagov
X. and Lellouch
X. and Wu
Y. -T. and Tsybychev
Y. A. and Ye
Y. C. and Chertok
Y. C. and Yao
Y. D. and Okusawa
Y. J. and Kim
Y. K. and Kimura
Y. N. and Kilminster
Y. Y. and Galloni
Y. and Avila
Y. and Erbacher
Y. and Giagu
Y. and Illingworth
Y. and Katsanos
Y. and Lobodenko
Y. and Naganoma
Y. and Petridis
Y. and Sanchez-Hernandez
Y. and Schellman
Y. and Sekaric
Y. and Sukhanov
Y. and Tang
Y. and Xie
Y. and Yamada
Y. and Zennamo
Z. and Hopkins
Z. and Hughes
Z. and Wyatt
Z. and Yeh
Publication venue: 'American Physical Society (APS)'
Publication date: 01/01/2018
Field of study

Drell-Yan lepton pairs produced in the process pp→â.,"+â.,"-+X through an intermediate γ∗/Z boson have an asymmetry in their angular distribution related to the spontaneous symmetry breaking of the electroweak force and the associated mixing of its neutral gauge bosons. The CDF and D0 experiments have measured the effective-leptonic electroweak mixing parameter sin2θefflept using electron and muon pairs selected from the full Tevatron proton-antiproton data sets collected in 2001-2011, corresponding to 9-10 fb-1 of integrated luminosity. The combination of these measurements yields the most precise result from hadron colliders, sin2θefflept=0.23148±0.00033. This result is consistent with, and approaches in precision, the best measurements from electron-positron colliders. The standard model inference of the on-shell electroweak mixing parameter sin2θW, or equivalently the W-boson mass MW, using the zfitter software package yields sin2θW=0.22324±0.00033 or equivalently, MW=80.367±0.017 GeV/c2

Archivio istituzionale della ricerca - Università di Cagliari

First

Author: Aberle O.
Alcayne V.
Amaducci S.
Andrzejewski J.
Audouin L.
Babiano-Suarez V.
Bacak M.
Balibrea-Correa J.
Barbagallo M.
Bennett S.
Berthoumieux E.
Billowes J.
Bosnar D.
Brown A.
Busso M.
Caamaño M.
Caballero-Ontanaya L.
Calviani M.
Calviño F.
Cano-Ott D.
Casanovas A.
Cerutti F.
Chiaveri E.
Collaboration and the n_TOF
Colonna N.
Cortés G.
CortésGiraldo M. A.
Cosentino L.
Cristallo S.
Damone L. A.
Davies P. J.
Diakaki M.
Dietz M.
Domingo-Pardo C.
Dressler R.
Ducasse Q.
Dupont E.
Durán I.
Eleme Z.
Fernández-Domínguez B.
Ferrari A.
Finocchiaro P.
Furman V.
Garg R.
Gawlik-Ramięga A.
Gilardoni S.
González-Romero E.
Gonçalves I. F.
Guerrero C.
Gunsing F.
Göbel K.
Harada H.
Heinitz S.
Heyse J.
Jenkins D. G.
Junghans A.
Kadi Y.
Kimura A.
Knapová I.
Kokkoris M.
Kopatch Y.
Krtička M.
Kurtulgil D.
Käppeler F.
Ladarescu I.
Lederer-Woods C.
Leeb H.
Lerendegui-Marco J.
Lonsdale S. J.
Macina D.
Manna A.
Martínez T.
Masi A.
Massimi C.
Mastinu P.
Mastromarco M.
Maugeri E. A.
Mazzone A.
Mendoza E.
Mengoni A.
Michalopoulou V.
Milazzo P. M.
Mingrone F.
Moreno-Soto J.
Musumarra A.
Negret A.
Nolte R.
Ogállar F.
Oprea A.
Patronis N.
Pavlik A.
Perkowski J.
Persanti L.
Petrone C.
Pirovano E.
Porras I.
Praena J.
Quesada J. M.
Ramos-Doval D.
Rauscher T.
Reifarth R.
Rochman D.
Romanets Y.
Rubbia C.
Sabaté-Gilarte M.
Saxena A.
Schillebeeckx P.
Schumann D.
Sekhar A.
Smith A. G.
Sosnin N. V.
Sprung P.
Stamatopoulos A.
Tagliente G.
Tain J. L.
Tarifeño-Saldivia A.
Tassan-Got L.
Thomas Th.
Torres-Sánchez P.
Tsinganis A.
Ulrich J.
Urlass S.
Valenta S.
Vannini G.
Variale V.
Vaz P.
Ventura A.
Vescovi D.
Vlachoudis V.
Vlastou R.
Wallner A.
Woods P. J.
Wright T.
Žugec P.
Publication venue: 'EDP Sciences'
Publication date: 01/01/2022
Field of study

Most elements heavier than iron have been generated in the stellar media by means of neutron capture reactions, approximately half are produced by the slow neutron capture or s-process. Radiative neutron capture cross section measurements are of fundamental importance for the study of this mechanism. In this contribution we present a brief summary on the measurement and results for the 80Se(n,γ) cross-section. The experiment was carried out at CERN n_TOF EAR1 via the time of flight (ToF) technique, using four C6D6 scintillation detectors with very fast response. More than a hundred new resonances have been analyzed for the first time with a high accuracy. The MACS obtained at kT = 8 keV is 36% smaller than the recommended value in KADo-NiS. Some of the astrophysical implications of this result are elucidated in this contribution

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