Three-particle coincidence of the long range pseudorapidity correlation in high energy nucleus-nucleus collisions.

نویسندگان

  • B I Abelev
  • M M Aggarwal
  • Z Ahammed
  • A V Alakhverdyants
  • B D Anderson
  • D Arkhipkin
  • G S Averichev
  • J Balewski
  • O Barannikova
  • L S Barnby
  • S Baumgart
  • D R Beavis
  • R Bellwied
  • M J Betancourt
  • R R Betts
  • A Bhasin
  • A K Bhati
  • H Bichsel
  • J Bielcik
  • J Bielcikova
  • B Biritz
  • L C Bland
  • I Bnzarov
  • B E Bonner
  • J Bouchet
  • E Braidot
  • A V Brandin
  • A Bridgeman
  • E Bruna
  • S Bueltmann
  • T P Burton
  • X Z Cai
  • H Caines
  • M Calderón de la Barca Sánchez
  • O Catu
  • D Cebra
  • R Cendejas
  • M C Cervantes
  • Z Chajecki
  • P Chaloupka
  • S Chattopadhyay
  • H F Chen
  • J H Chen
  • J Y Chen
  • J Cheng
  • M Cherney
  • A Chikanian
  • K E Choi
  • W Christie
  • P Chung
  • R F Clarke
  • M J M Codrington
  • R Corliss
  • J G Cramer
  • H J Crawford
  • D Das
  • S Dash
  • A Davila Leyva
  • L C De Silva
  • R R Debbe
  • T G Dedovich
  • M DePhillips
  • A A Derevschikov
  • R Derradi de Souza
  • L Didenko
  • P Djawotho
  • S M Dogra
  • X Dong
  • J L Drachenberg
  • J E Draper
  • J C Dunlop
  • M R Dutta Mazumdar
  • L G Efimov
  • E Elhalhuli
  • M Elnimr
  • J Engelage
  • G Eppley
  • B Erazmus
  • M Estienne
  • L Eun
  • P Fachini
  • R Fatemi
  • J Fedorisin
  • R G Fersch
  • P Filip
  • E Finch
  • V Fine
  • Y Fisyak
  • C A Gagliardi
  • D R Gangadharan
  • M S Ganti
  • E J Garcia-Solis
  • A Geromitsos
  • F Geurts
  • V Ghazikhanian
  • P Ghosh
  • Y N Gorbunov
  • A Gordon
  • O Grebenyuk
  • D Grosnick
  • B Grube
  • S M Guertin
  • A Gupta
  • N Gupta
  • W Guryn
  • B Haag
  • T J Hallman
  • A Hamed
  • L-X Han
  • J W Harris
  • J P Hays-Wehle
  • M Heinz
  • S Heppelmann
  • A Hirsch
  • E Hjort
  • A M Hoffman
  • G W Hoffmann
  • D J Hofman
  • R S Hollis
  • H Z Huang
  • T J Humanic
  • L Huo
  • G Igo
  • A Iordanova
  • P Jacobs
  • W W Jacobs
  • P Jakl
  • C Jena
  • F Jin
  • C L Jones
  • P G Jones
  • J Joseph
  • E G Judd
  • S Kabana
  • K Kajimoto
  • K Kang
  • J Kapitan
  • K Kauder
  • D Keane
  • A Kechechyan
  • D Kettler
  • V Yu Khodyrev
  • D P Kikola
  • J Kiryluk
  • A Kisiel
  • A G Knospe
  • A Kocoloski
  • D D Koetke
  • T Kollegger
  • J Konzer
  • M Kopytine
  • I Koralt
  • W Korsch
  • L Kotchenda
  • V Kouchpil
  • P Kravtsov
  • V I Kravtsov
  • K Krueger
  • M Krus
  • L Kumar
  • P Kurnadi
  • M A C Lamont
  • J M Landgraf
  • S LaPointe
  • J Lauret
  • A Lebedev
  • R Lednicky
  • C-H Lee
  • J H Lee
  • W Leight
  • M J LeVine
  • C Li
  • L Li
  • N Li
  • W Li
  • X Li
  • Y Li
  • Z Li
  • G Lin
  • S J Lindenbaum
  • M A Lisa
  • F Liu
  • H Liu
  • J Liu
  • T Ljubicic
  • W J Llope
  • R S Longacre
  • W A Love
  • Y Lu
  • T Ludlam
  • G L Ma
  • Y G Ma
  • D P Mahapatra
  • R Majka
  • O I Mall
  • L K Mangotra
  • R Manweiler
  • S Margetis
  • C Markert
  • H Masui
  • H S Matis
  • Yu A Matulenko
  • D McDonald
  • T S McShane
  • A Meschanin
  • R Milner
  • N G Minaev
  • S Mioduszewski
  • A Mischke
  • M K Mitrovski
  • B Mohanty
  • D A Morozov
  • M G Munhoz
  • B K Nandi
  • C Nattrass
  • T K Nayak
  • J M Nelson
  • P K Netrakanti
  • M J Ng
  • L V Nogach
  • S B Nurushev
  • G Odyniec
  • A Ogawa
  • H Okada
  • V Okorokov
  • D Olson
  • M Pachr
  • B S Page
  • S K Pal
  • Y Pandit
  • Y Panebratsev
  • T Pawlak
  • T Peitzmann
  • V Perevoztchikov
  • C Perkins
  • W Peryt
  • S C Phatak
  • P Pile
  • M Planinic
  • M A Ploskon
  • J Pluta
  • D Plyku
  • N Poljak
  • A M Poskanzer
  • B V K S Potukuchi
  • C B Powell
  • D Prindle
  • C Pruneau
  • N K Pruthi
  • P R Pujahari
  • J Putschke
  • R Raniwala
  • S Raniwala
  • R L Ray
  • R Redwine
  • R Reed
  • J M Rehberg
  • H G Ritter
  • J B Roberts
  • O V Rogachevskiy
  • J L Romero
  • A Rose
  • C Roy
  • L Ruan
  • R Sahoo
  • S Sakai
  • I Sakrejda
  • T Sakuma
  • S Salur
  • J Sandweiss
  • E Sangaline
  • J Schambach
  • R P Scharenberg
  • N Schmitz
  • T R Schuster
  • J Seele
  • J Seger
  • I Selyuzhenkov
  • P Seyboth
  • E Shahaliev
  • M Shao
  • M Sharma
  • S S Shi
  • E P Sichtermann
  • F Simon
  • R N Singaraju
  • M J Skoby
  • N Smirnov
  • P Sorensen
  • J Sowinski
  • H M Spinka
  • B Srivastava
  • T D S Stanislaus
  • D Staszak
  • J R Stevens
  • R Stock
  • M Strikhanov
  • B Stringfellow
  • A A P Suaide
  • M C Suarez
  • N L Subba
  • M Sumbera
  • X M Sun
  • Y Sun
  • Z Sun
  • B Surrow
  • T J M Symons
  • A Szanto de Toledo
  • J Takahashi
  • A H Tang
  • Z Tang
  • L H Tarini
  • T Tarnowsky
  • D Thein
  • J H Thomas
  • J Tian
  • A R Timmins
  • S Timoshenko
  • D Tlusty
  • M Tokarev
  • V N Tram
  • S Trentalange
  • R E Tribble
  • O D Tsai
  • J Ulery
  • T Ullrich
  • D G Underwood
  • G Van Buren
  • G van Nieuwenhuizen
  • M van Leeuwen
  • J A Vanfossen
  • R Varma
  • G M S Vasconcelos
  • A N Vasiliev
  • F Videbæk
  • Y P Viyogi
  • S Vokal
  • M Wada
  • M Walker
  • F Wang
  • G Wang
  • H Wang
  • J S Wang
  • Q Wang
  • X Wang
  • X L Wang
  • Y Wang
  • G Webb
  • J C Webb
  • G D Westfall
  • C Whitten
  • H Wieman
  • E Wingfield
  • S W Wissink
  • R Witt
  • Y Wu
  • W Xie
  • N Xu
  • Q H Xu
  • W Xu
  • Y Xu
  • Z Xu
  • L Xue
  • Y Yang
  • P Yepes
  • K Yip
  • I-K Yoo
  • Q Yue
  • M Zawisza
  • H Zbroszczyk
  • W Zhan
  • S Zhang
  • W M Zhang
  • X P Zhang
  • Y Zhang
  • Z P Zhang
  • J Zhao
  • C Zhong
  • J Zhou
  • W Zhou
  • X Zhu
  • Y-H Zhu
  • R Zoulkarneev
  • Y Zoulkarneeva
چکیده

We report the first three-particle coincidence measurement in pseudorapidity (Δη) between a high transverse momentum (p⊥) trigger particle and two lower p⊥ associated particles within azimuth |Δϕ|<0.7 in square root of s(NN)=200 GeV d+Au and Au+Au collisions. Charge ordering properties are exploited to separate the jetlike component and the ridge (long range Δη correlation). The results indicate that the correlation of ridge particles are uniform not only with respect to the trigger particle but also between themselves event by event in our measured Δη. In addition, the production of the ridge appears to be uncorrelated to the presence of the narrow jetlike component.

برای دانلود متن کامل این مقاله و بیش از 32 میلیون مقاله دیگر ابتدا ثبت نام کنید

ثبت نام

اگر عضو سایت هستید لطفا وارد حساب کاربری خود شوید

منابع مشابه

Probing novel long-range correlation phenomena in pPb collisions with identified particles at CMS

Observation of a long-range near-side two-particle correlation (known as the Ridge) in high-multiplicity pp and pPb collisions opened up new opportunities of exploring novel QCD dynamics in small collision systems. To further investigate the origin of this phenomenon, studies of two-particle correlations with identified K s and Lambda trigger particles in 5.02 TeV pPb collisions are presented, ...

متن کامل

Energy Dependance of Azimuthal Correlations (and more) in Nucleus–Nucleus Collisions at the CERN SPS

Analysing two-particle azimuthal and pseudorapidity–azimuth correlations of high-pT hadrons, experiments at the RHIC have obtained results — “the double hump”, “the ridge” etc. — which provide interesting information about properties of the hot, dense medium produced in central high-energy heavy-ion collisions as well as of its interaction with products of hard scattering. However, not all of t...

متن کامل

2 00 8 STAR ’ s measurement of Long - range forward - backward multiplicity correlations as the signature of “ dense partonic matter ” in the Heavy

Forward-backward multiplicity correlations have been measured with the STAR detector for Au+Au, Cu+Cu and p+p collisions at √ sNN = 200 GeV. A strong, long-range correlation is observed for central heavy ion collisions that vanishes in semiperipheral events and pp collisions. There is no apparent scaling of correlation strength with the number of participants involved in the collision. Both the...

متن کامل

Test of Bowler-sinyukov Treatment of Coulomb Interaction *

The correlation functions of two particles with ‘small’ relative momenta provide information about space-time characteristics of particle’s sources in high-energy nucleus-nucleus collisions [1, 2, 3]. Within the standard ‘femtoscopy’ method, one obtains parameters of a particle’s source fitting experimental correlation functions with theoretical ones calculated in a given model. Since we usuall...

متن کامل

Manifestation of Jet Quenching in the Total Transverse Energy Distributions in the Nucleus-Nucleus Collisions

In the framework of the HIJING model global characteristics of nucleusnucleus collisions are studied for a Large Hadron Collider energy scale. An interesting model prediction is the presence of a central bump over a pseudorapidity plateau of a total transverse energy distribution. The bump is induced by a jet quenching effect in a dense nuclear matter. It is shown that on a wide acceptance calo...

متن کامل

Ridge correlation structure in high-multiplicity pp collisions with CMS

Abstract Results on two-particle angular correlations are presented in proton–proton collisions at center of mass energies of 7 TeV, over a broad range of pseudorapidity and azimuthal angle. In very high-multiplicity events at 7 TeV, a pronounced structure emerges in the two-dimensional correlation function for particle pairs with intermediate pT of 1–3 GeV/c, in the kinematic region 2.0 < | η|...

متن کامل

ذخیره در منابع من

ذخیره در منابع من قبلا به منابع من ذحیره شده

{@ msg_add @}


  با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید

برای دانلود متن کامل این مقاله و بیش از 32 میلیون مقاله دیگر ابتدا ثبت نام کنید

ثبت نام

اگر عضو سایت هستید لطفا وارد حساب کاربری خود شوید

عنوان ژورنال:
  • Physical review letters

دوره 105 2  شماره 

صفحات  -

تاریخ انتشار 2010