9 research outputs found
Phi meson production in Au+Au and p+p collisions at sqrt (s)=200 GeV
- Author
- A. Billmeier
- A. Boucham
- A. Brandin
- A. Bravar
- A. Chikanian
- A. Gupta
- A. Hamed
- A. Hirsch
- A. Ishihara
- A. Kisiel
- A. Klyachko
- A. Kumar
- A. Lebedev
- A. Meschanin
- A. Mischke
- A. Ogawa
- A. Ridiger
- A. Rose
- A. Stolpovsky
- A. Szanto de Toledo
- A. Tai
- A.A. Derevschikov
- A.A. Kuznetsov
- A.A.P. Suaide
- A.D. Kovalenko
- A.H. Tang
- A.I. Kulikov
- A.I. Pavlinov
- A.K. Bhati
- A.K. Dubey
- A.M. Poskanzer
- A.M. VanderMolen
- A.N. Vasiliev
- A.N. Zubarev
- Ackerman
- Adams
- Adams
- Adams
- Adams
- Adler
- Adler
- Adler
- Afanasiev
- Afanasiev
- Ahle
- B. Erazmus
- B. Hippolyte
- B. Lasiuk
- B. Mohanty
- B. Norman
- B. Srivastava
- B. Stringfellow
- B. Surrow
- B. Yuting
- B.D. Anderson
- B.E. Bonner
- B.I. Bezverkhny
- B.K. Nandi
- B.V.K.S. Potukuchi
- Back
- Baltz
- Bass
- Bleicher
- C. Adler
- C. Kuhn
- C. Li
- C. Markert
- C. Mironov
- C. Perkins
- C. Pruneau
- C. Roy
- C. Struck
- C. Suire
- C. Whitten
- C.A. Gagliardi
- C.F. Moore
- C.J. McClain
- C.L. Kunz
- C.O. Blyth
- Cheng
- D. Arkhipkin
- D. Cebra
- D. Das
- D. Flierl
- D. Grosnick
- D. Hardtke
- D. Keane
- D. Lynn
- D. Magestro
- D. Mishra
- D. Olson
- D. Prindle
- D. Reichhold
- D. Thein
- D.A. Morozov
- D.D. Koetke
- D.G. Underwood
- D.P. Mahapatra
- Das
- Drijard
- E. Finch
- E. Hjort
- E. Hughes
- E. Potrebenikova
- E. Shahaliev
- E. Sugarbaker
- E. Yamamoto
- E.G. Judd
- F. Du
- F. Geurts
- F. Laue
- F. Liu
- F. Meissner
- F. Retiere
- F. Simon
- F. Wang
- Fries
- Fries
- G. Eppley
- G. Igo
- G. Odyniec
- G. Paic
- G. Rai
- G. Rakness
- G. Renault
- G. Skoro
- G. Sood
- G. Van Buren
- G. Wang
- G. Wang
- G.D. Westfall
- G.J. Kunde
- G.S. Averichev
- G.W. Hoffmann
- Greco
- H. Bichsel
- H. Caines
- H. Jiang
- H. Long
- H. Ward
- H. Wieman
- H. Zhang
- H.F. Chen
- H.G. Ritter
- H.J. Crawford
- H.M. Spinka
- H.S. Matis
- H.Z. Huang
- Hagiwara
- Hwa
- I. Johnson
- I. Sakrejda
- I. Savin
- I. Vasilevski
- Iizuka
- J. Adams
- J. Amonett
- J. Balewski
- J. Baudot
- J. Berger
- J. Carroll
- J. Castillo
- J. Engelage
- J. Faivre
- J. Fu
- J. Gans
- J. Kiryluk
- J. Klay
- J. Lauret
- J. Ma
- J. Marx
- J. Mitchell
- J. Pluta
- J. Porter
- J. Putschke
- J. Sandweiss
- J. Schambach
- J. Seger
- J. Sowinski
- J. Takahashi
- J. Wood
- J. Wu
- J. Zoulkarneeva
- J.B. Roberts
- J.C. Dunlop
- J.C. Webb
- J.E. Draper
- J.E. Gonzalez
- J.G. Cramer
- J.G. Reid
- J.H. Thomas
- J.L. Romero
- J.M. Landgraf
- J.M. Nelson
- J.P. Coffin
- J.W. Harris
- J.W. Watson
- K. Filimonov
- K. Krueger
- K. Schweda
- K.E. Shestermanov
- K.J. Foley
- L'Hote
- L. Didenko
- L. Gaudichet
- L. Kotchenda
- L. Liu
- L. Martin
- L. Molnar
- L.C. Bland
- L.G. Efimov
- L.J. Ruan
- L.K. Mangotra
- L.S. Barnby
- L.S. Schroeder
- L.V. Nogach
- Lin
- M. Botje
- M. Calderón de la Barca Sánchez
- M. Cherney
- M. Estienne
- M. Germain
- M. Guedon
- M. Heinz
- M. Horsley
- M. Janik
- M. Kaplan
- M. Kopytine
- M. Kramer
- M. Lopez-Noriega
- M. Oldenburg
- M. Planinic
- M. Potekhin
- M. Shao
- M. Sharma
- M. Strikhanov
- M. Tokarev
- M. Vznuzdaev
- M. Šumbera
- M.A. Lisa
- M.A.C. Lamont
- M.B. Tonjes
- M.G. Munhoz
- M.J. LeVine
- M.J. Mora-Corral
- M.L. Miller
- M.M. Aggarwal
- M.M. de Moura
- M.R. Dutta Majumdar
- M.S. Ganti
- Molnar
- N. Gagunashvili
- N. Porile
- N. Schmitz
- N. Smirnov
- N. Xu
- N.G. Minaev
- O. Barannikova
- O. Grachov
- O. Grebenyuk
- O. Ravel
- O. Tsai
- O.V. Rogachevski
- Okubo
- P. Chaloupka
- P. Fachini
- P. Filip
- P. Ghosh
- P. Jacobs
- P. Kravtsov
- P. Seyboth
- P. Sorensen
- P. Szarwas
- P. Yepes
- P.A. Żołnierczuk
- P.G. Jones
- P.K. Netrakanti
- Perkins
- Q. Li
- Q.J. Liu
- R. Bellwied
- R. Fatemi
- R. Lednický
- R. Majka
- R. Manweiler
- R. Picha
- R. Raniwala
- R. Sahoo
- R. Snellings
- R. Stock
- R. Varma
- R. Wells
- R. Willson
- R. Witt
- R. Zoulkarneev
- R.E. Tribble
- R.Kh. Kutuev
- R.L. Ray
- R.N. Singaraju
- R.P. Scharenberg
- R.S. Longacre
- R.V. Cadman
- S. Bekele
- S. Bhardwaj
- S. Chattopadhyay
- S. Das
- S. Gronstal
- S. Heppelmann
- S. Kabana
- S. Lange
- S. Mahajan
- S. Margetis
- S. Raniwala
- S. Salur
- S. Timoshenko
- S. Trentalange
- S.A. Voloshin
- S.B. Nurushev
- S.C. Phatak
- S.E. Vigdor
- S.J. Lindenbaum
- S.K. Badyal
- S.K. Nayak
- S.K. Pal
- S.L. Huang
- S.M. Guertin
- S.P. Chernenko
- S.R. Klein
- S.S. Shimanskii
- S.V. Razin
- S.W. Wissink
- S.Y. Panitkin
- Schnedermann
- Shor
- Sorge
- Sorge
- T. Dietel
- T. Kollegger
- T. Ljubicic
- T. Ludlam
- T. Pawlak
- T. Peitzmann
- T. Ullrich
- T.A. Trainor
- T.D. Gutierrez
- T.D.S. Stanislaus
- T.J. Hallman
- T.J. Humanic
- T.J.M. Symons
- T.K. Nayak
- T.M. Cormier
- T.S. McShane
- T.W. Henry
- V. Eckardt
- V. Emelianov
- V. Faine
- V. Ghazikhanian
- V. Morozov
- V. Okorokov
- V. Perevoztchikov
- V.A. Nikitin
- V.A. Petrov
- V.B. Dunin
- V.I. Kravtsov
- V.I. Yurevich
- V.V. Belaga
- V.Yu. Khodyrev
- Voloshin
- W. Christie
- W. Peryt
- W. Shao
- W. Waggoner
- W.A. Love
- W.J. Dong
- W.J. Llope
- W.M. Zhang
- W.W. Jacobs
- X. Dong
- X.L. Wang
- X.Z. Cai
- Y. Chen
- Y. Fisyak
- Y. Panebratsev
- Y. Wang
- Y.G. Ma
- Y.P. Viyogi
- Y.V. Zanevski
- Yu. Melnick
- Yu.A. Matulenko
- Z. Ahammed
- Z. Liu
- Z. Milosevich
- Z. Xu
- Z.M. Wang
- Z.P. Zhang
- Z.P. Zhaomin
- Z.P. Zizong
- Z.Z. Xu
- Publication venue
- 'Elsevier BV'
- Publication date
- 07/06/2004
- Field of study
We report the STAR measurement of Phi meson production in Au+Au and p+p
collisions at sqrt (s)=200 GeV. Using the event mixing technique, the Phi
spectra and yields are obtained at mid-rapidity for five centrality bins in
Au+Au collisions and for non-singly-diffractive p+p collisions. It is found
that the Phi transverse momentum distributions from Au+Au collisions are better
fitted with a single-exponential while the p+p spectrum is better described by
a double-exponential distribution. The measured nuclear modification factors
indicate that Phi production in central Au+Au collisions is suppressed relative
to peripheral collisions when scaled by the number of binary collisions. The
systematics of versus centrality and the constant Phi/K- ratio versus beam
species, centrality, and collision energy rule out kaon coalescence as the
dominant mechanism for Phi production.Comment: 6 pages, 3 figures, submitted to Phys. Rev. Let
Energy and system size dependence of \phi meson production in Cu+Cu and Au+Au collisions
- Author
- A. Bhasin
- A. Chikanian
- A. Feng
- A. Gordon
- A. Gupta
- A. Hamed
- A. Hirsch
- A. Iordanova
- A. Kechechyan
- A. Kisiel
- A. Kocoloski
- A. Lebedev
- A. Meschanin
- A. Mischke
- A. Ogawa
- A. Ridiger
- A. Rose
- A. Shabetai
- A. Stadnik
- A. Szanto de Toledo
- A.A. Derevschikov
- A.A.P. Suaide
- A.G. Knospe
- A.H. Tang
- A.K. Bhati
- A.L. Trattner
- A.M. Hoffman
- A.M. Poskanzer
- A.M. Vander Molen
- A.N. Vasiliev
- A.R. Timmins
- A.V. Brandin
- Abdel-Bary
- Abelev
- Abelev
- Abelev
- Abelev
- Abelev
- Ackermann
- Adamova
- Adams
- Adams
- Adams
- Adams
- Adcox
- Adler
- Adler
- Afanasiev
- Afanasiev
- Ahle
- Aichelin
- Akerlof
- Akesson
- Alt
- Alt
- Anderson
- Arsene
- B. Biritz
- B. Erazmus
- B. Grube
- B. Haag
- B. Hippolyte
- B. Mohanty
- B. Srivastava
- B. Stringfellow
- B. Surrow
- B.D. Anderson
- B.E. Bonner
- B.I. Abelev
- B.K. Nandi
- B.S. Page
- B.V.K.S. Potukuchi
- Back
- Baltz
- Becattini
- Berenguer
- Bleicher
- Blobel
- C. De Silva
- C. Kuhn
- C. Li
- C. Markert
- C. Nattrass
- C. Nepali
- C. Perkins
- C. Pruneau
- C. Roy
- C. Whitten
- C. Zhong
- C.-H. Lee
- C.A. Gagliardi
- C.L. Jones
- Chen
- Cheng
- Cleymans
- Cleymans
- Cleymans
- D. Arkhipkin
- D. Cebra
- D. Das
- D. Grosnick
- D. Keane
- D. Kettler
- D. Lynn
- D. Olson
- D. Prindle
- D. Staszak
- D. Thein
- D. Tlusty
- D.A. Morozov
- D.D. Koetke
- D.G. Underwood
- D.J. Hofman
- D.P. Kikola
- D.P. Mahapatra
- D.R. Beavis
- D.R. Gangadharan
- Daum
- Donald
- E. Braidot
- E. Bruna
- E. Elhalhuli
- E. Finch
- E. Garcia-Solis
- E. Hjort
- E. Shahaliev
- E. Sichtermann
- E.G. Judd
- Eidelman
- Ellis
- F. Benedosso
- F. Du
- F. Jin
- F. Liu
- F. Simon
- F. Videbaek
- F. Wang
- Fries
- G. Eppley
- G. Igo
- G. Lin
- G. Odyniec
- G. Van Buren
- G. Wang
- G.D. Westfall
- G.L. Ma
- G.M.S. Vasconcelos
- G.S. Averichev
- G.W. Hoffmann
- H. Bichsel
- H. Caines
- H. Liu
- H. Okada
- H. Wieman
- H. Zbroszczyk
- H. Zhang
- H.F. Chen
- H.G. Ritter
- H.J. Crawford
- H.M. Spinka
- H.S. Matis
- H.Z. Huang
- Hamieh
- Hartmann
- Hwa
- Höhne
- I. Sakrejda
- I. Savin
- I. Selyuzhenkov
- I.-K. Yoo
- I.M. Vasilevski
- Iizuka
- J. Balewski
- J. Baudot
- J. Bielcik
- J. Bielcikova
- J. Bouchet
- J. Callner
- J. Cheng
- J. Engelage
- J. Fedorisin
- J. Joseph
- J. Kapitan
- J. Kiryluk
- J. Lauret
- J. Liu
- J. Mitchell
- J. Pluta
- J. Putschke
- J. Sandweiss
- J. Schambach
- J. Seger
- J. Sowinski
- J. Takahashi
- J. Tian
- J. Ulery
- J. Zhou
- J.A. Vanfossen
- J.B. Roberts
- J.C. Dunlop
- J.C. Webb
- J.E. Draper
- J.G. Cramer
- J.H. Chen
- J.H. Thomas
- J.L. Drachenberg
- J.L. Romero
- J.M. Landgraf
- J.M. Nelson
- J.P. Coffin
- J.S. Wang
- J.W. Harris
- J.X. Zuo
- J.Y. Chen
- K. Kajimoto
- K. Kang
- K. Krueger
- K.E. Choi
- K.S.F.F. Guimaraes
- Koch
- Kraus
- L. Didenko
- L. Eun
- L. Gaillard
- L. Kotchenda
- L. Kumar
- L. Liu
- L. Ruan
- L.C. Bland
- L.G. Efimov
- L.K. Mangotra
- L.S. Barnby
- L.V. Nogach
- Lipkin
- M. Bombara
- M. Botje
- M. Bystersky
- M. Calderón de la Barca Sánchez
- M. Cherney
- M. Daugherity
- M. DePhillips
- M. Elnimr
- M. Estienne
- M. Heinz
- M. Kaplan
- M. Kopytine
- M. Krus
- M. Pachr
- M. Planinic
- M. Sarsour
- M. Shao
- M. Sharma
- M. Strikhanov
- M. Sumbera
- M. Tokarev
- M. van Leeuwen
- M. Wada
- M. Walker
- M. Zawisza
- M.A. Lisa
- M.A.C. Lamont
- M.C. Cervantes
- M.C. Suarez
- M.G. Munhoz
- M.J. Betancourt
- M.J. Codrington
- M.J. LeVine
- M.J. Ng
- M.J. Russcher
- M.J. Skoby
- M.M. Aggarwal
- M.R. Cosentino
- M.R. Dutta Mazumdar
- M.S. Ganti
- Mohanty
- N. Gupta
- N. Poljak
- N. Schmitz
- N. Smirnov
- N. Xu
- N.G. Minaev
- N.K. Pruthi
- N.L. Subba
- O. Barannikova
- O. Catu
- O. Grebenyuk
- O.D. Tsai
- O.I. Mall
- O.V. Rogachevskiy
- Okubo
- P. Chaloupka
- P. Djawotho
- P. Fachini
- P. Filip
- P. Ghosh
- P. Jacobs
- P. Jakl
- P. Kravtsov
- P. Kurnadi
- P. Seyboth
- P. Sorensen
- P. Yepes
- P.G. Jones
- P.K. Netrakanti
- Q. Wang
- Q. Yue
- Q.H. Xu
- R. Bellwied
- R. Cendejas
- R. Corliss
- R. Derradi de Souza
- R. Fatemi
- R. Lednicky
- R. Majka
- R. Manweiler
- R. Millner
- R. Raniwala
- R. Redwine
- R. Reed
- R. Sahoo
- R. Snellings
- R. Varma
- R. Witt
- R. Zoulkarneev
- R.E. Tribble
- R.F. Clarke
- R.L. Ray
- R.N. Singaraju
- R.P. Scharenberg
- R.R. Betts
- R.S. Hollis
- R.S. Longacre
- Rafelski
- Redlich
- S. Baumgart
- S. Bharadwaj
- S. Bueltmann
- S. Chattopadhyay
- S. Dash
- S. Hepplemann
- S. Kabana
- S. LaPointe
- S. Margetis
- S. Mioduszewski
- S. Raniwala
- S. Salur
- S. Timoshenko
- S. Trentalange
- S. Vokal
- S. Zhang
- S.A. Voloshin
- S.B. Nurushev
- S.C. Phatak
- S.E. Vigdor
- S.J. Lindenbaum
- S.K. Pal
- S.M. Dogra
- S.M. Guertin
- S.R. Klein
- S.S. Shi
- S.U. Chung
- S.W. Wissink
- Shor
- Shuryak
- Sibirtsev
- Sibirtsev
- Sibirtsev
- T. Ljubicic
- T. Ludlam
- T. Pawlak
- T. Peitzmann
- T. Sakuma
- T. Tarnowsky
- T. Ullrich
- T.A. Trainor
- T.D.S. Stanislaus
- T.G. Dedovich
- T.J. Hallman
- T.J. Humanic
- T.J.M. Symons
- T.K. Nayak
- T.M. Cormier
- T.P. Burton
- T.S. McShane
- Tounsi
- V. Emelianov
- V. Fine
- V. Ghazikhanian
- V. Kouchpil
- V. Okorokov
- V. Perevoztchikov
- V. Rykov
- V.I. Kravtsov
- V.N. Tram
- V.Yu. Khodyrev
- W. Christie
- W. Guryn
- W. He
- W. Leight
- W. Peryt
- W. Zhan
- W.A. Love
- W.J. Llope
- W.M. Zhang
- W.R. Edwards
- W.T. Waggoner
- W.W. Jacobs
- X. Dong
- X. Lin
- X. Wang
- X.-H. Shi
- X.L. Wang
- X.M. Sun
- X.Z. Cai
- Y. Bai
- Y. Fisyak
- Y. Li
- Y. Lu
- Y. Pandit
- Y. Panebratsev
- Y. Sun
- Y. Wang
- Y. Wu
- Y. Xu
- Y. Zhang
- Y. Zhao
- Y. Zoulkarneeva
- Y.G. Ma
- Y.N. Gorbunov
- Y.P. Viyogi
- Yu.A. Matulenko
- Z. Ahammed
- Z. Chajecki
- Z. Sun
- Z. Tang
- Z. Xu
- Z.P. Zhang
- Publication venue
- 'Elsevier BV'
- Publication date
- 28/10/2008
- Field of study
We study the beam-energy and system-size dependence of \phi meson production
(using the hadronic decay mode \phi -- K+K-) by comparing the new results from
Cu+Cu collisions and previously reported Au+Au collisions at \sqrt{s_NN} = 62.4
and 200 GeV measured in the STAR experiment at RHIC. Data presented are from
mid-rapidity (|y|<0.5) for 0.4 < pT < 5 GeV/c. At a given beam energy, the
transverse momentum distributions for \phi mesons are observed to be similar in
yield and shape for Cu+Cu and Au+Au colliding systems with similar average
numbers of participating nucleons. The \phi meson yields in nucleus-nucleus
collisions, normalised by the average number of participating nucleons, are
found to be enhanced relative to those from p+p collisions with a different
trend compared to strange baryons. The enhancement for \phi mesons is observed
to be higher at \sqrt{s_NN} = 200 GeV compared to 62.4 GeV. These observations
for the produced \phi(s\bar{s}) mesons clearly suggest that, at these collision
energies, the source of enhancement of strange hadrons is related to the
formation of a dense partonic medium in high energy nucleus-nucleus collisions
and cannot be alone due to canonical suppression of their production in smaller
systems.Comment: 20 pages and 5 figure
Kaon Production and Kaon to Pion Ratio in Au+Au Collisions at \snn=130 GeV
- Author
- A. Billmeier
- A. Boucham
- A. Brandin
- A. Bravar
- A. Cardenas
- A. Chikanian
- A. Hirsch
- A. Ishihara
- A. Kisiel
- A. Klyachko
- A. Lebedev
- A. Meschanin
- A. Ogawa
- A. Ridiger
- A. Rose
- A. Schüttauf
- A. Stolpovsky
- A. Szanto de Toledo
- A. Tai
- A.A. Derevschikov
- A.A. Kuznetsov
- A.A.P. Suaide
- A.C. Saulys
- A.D. Kovalenko
- A.E. Yakutin
- A.H. Tang
- A.I. Kulikov
- A.I. Pavlinov
- A.M. Poskanzer
- A.M. VanderMolen
- A.N. Vasiliev
- A.N. Zubarev
- A.S. Konstantinov
- Abbott
- Abbott
- Abbott
- Ackermann
- Adams
- Adcox
- Adler
- Adler
- Adler
- Adler
- Adler
- Afanasiev
- Ahle
- Ahle
- Ahle
- Ahle
- Ahle
- Alber
- Alexopoulos
- Andersen
- B. Choi
- B. Erazmus
- B. Hippolyte
- B. Lasiuk
- B. Norman
- B. Srivastava
- B. Stringfellow
- B. Surrow
- B.D. Anderson
- B.E. Bonner
- Back
- Bailly
- Bartke
- Bearden
- Bearden
- Bearden
- Braun-Munzinger
- Bøggild
- C. Adler
- C. Allgower
- C. Kuhn
- C. Markert
- C. Pruneau
- C. Roy
- C. Struck
- C. Suire
- C. Whitten
- C.A. Gagliardi
- C.F. Moore
- C.L. Kunz
- C.O. Blyth
- C.P. Lansdell
- Calderón de la Barca Sánchez
- D. Cebra
- D. Flierl
- D. Hardtke
- D. Keane
- D. Lynn
- D. Olson
- D. Prindle
- D. Reichhold
- D. Seliverstov
- D.G. Underwood
- Deng
- Dunlop
- E. Finch
- E. Gushin
- E. Hjort
- E. Potrebenikova
- E. Shahaliev
- E. Sugarbaker
- E. Yamamoto
- E.G. Judd
- E.J. Stephenson
- F. Geurts
- F. Laue
- F. Liu
- F. Meissner
- F. Retiere
- F. Wang
- G. Eppley
- G. Igo
- G. LoCurto
- G. Odyniec
- G. Paic
- G. Rai
- G. Rakness
- G. Skoro
- G. Van Buren
- G.D. Westfall
- G.J. Kunde
- G.S. Averichev
- G.W. Hoffmann
- H. Bichsel
- H. Caines
- H. Long
- H. Ward
- H. Wieman
- H. Zhang
- H.G. Ritter
- H.J. Crawford
- H.M. Spinka
- H.S. Matis
- H.Z. Huang
- Harris
- Höhne
- I. Johnson
- I. Sakrejda
- I. Savin
- I. Zborovský
- I.M. Vasilevski
- J. Amonett
- J. Balewski
- J. Baudot
- J. Berger
- J. Carroll
- J. Castillo
- J. Engelage
- J. Fu
- J. Gans
- J. Kiryluk
- J. Klay
- J. Ma
- J. Marx
- J. Mitchell
- J. Pluta
- J. Porter
- J. Putschke
- J. Sandweiss
- J. Schambach
- J. Seger
- J. Sowinski
- J. Takahashi
- J. Wood
- J. Yang
- J.B. Roberts
- J.C. Dunlop
- J.E. Draper
- J.G. Cramer
- J.G. Reid
- J.H. Thomas
- J.L. Romero
- J.M. Landgraf
- J.M. Nelson
- J.P. Coffin
- J.W. Harris
- J.W. Watson
- K. Filimonov
- K. Krueger
- K. Schweda
- K.E. Shestermanov
- K.J. Foley
- Koch
- L. Didenko
- L. Gaudichet
- L. Kotchenda
- L. Lakehal-Ayat
- L. Liu
- L. Martin
- L.C. Bland
- L.G. Efimov
- L.S. Barnby
- L.S. Schroeder
- L.V. Nogach
- Laermann
- M. Anderson
- M. Calderón de la Barca Sánchez
- M. Castro
- M. Cherney
- M. Germain
- M. Guedon
- M. Horsley
- M. Janik
- M. Kaneta
- M. Kaplan
- M. Kopytine
- M. Kramer
- M. Lopez-Noriega
- M. Messer
- M. Oldenburg
- M. Planinic
- M. Strikhanov
- M. Thompson
- M. Tokarev
- M. Šumbera
- M.A. Lisa
- M.A.C. Lamont
- M.B. Tonjes
- M.G. Munhoz
- M.J. LeVine
- M.L. Miller
- M.M. de Moura
- Margetis
- N. Gagunashvili
- N. Porile
- N. Schmitz
- N. Smirnov
- N. Xu
- N.G. Minaev
- O. Barannikova
- O. Grachov
- O. Ravel
- O. Tsai
- O.V. Rogachevski
- P. Chaloupka
- P. Fachini
- P. Jacobs
- P. Kravtsov
- P. Nevski
- P. Seyboth
- P. Sorensen
- P. Szarwas
- P. Yepes
- P.G. Jones
- Q. Li
- Q.J. Liu
- R. Bellwied
- R. Lednický
- R. Majka
- R. Snellings
- R. Stock
- R. Wells
- R. Willson
- R. Witt
- R. Zoulkarneev
- R.E. Tribble
- R.Kh. Kutuev
- R.L. Ray
- R.P. Scharenberg
- R.S. Longacre
- R.V. Cadman
- Rafelski
- Rafelski
- Rafelski
- Rossi
- S. Bekele
- S. Chattopadhyay
- S. Heppelmann
- S. Lange
- S. Margetis
- S. Salur
- S. Trentalange
- S.A. Voloshin
- S.B. Nurushev
- S.E. Vigdor
- S.J. Lindenbaum
- S.P. Chernenko
- S.R. Klein
- S.S. Shimanskii
- S.U. Pandey
- S.V. Razin
- S.W. Wissink
- S.Y. Panitkin
- Siklér
- Sorge
- Sorge
- T. Dietel
- T. Herston
- T. Ljubicic
- T. Ludlam
- T. Pawlak
- T. Ullrich
- T.A. Trainor
- T.J. Hallman
- T.J. Humanic
- T.J.M. Symons
- T.M. Cormier
- T.S. McShane
- T.W. Henry
- V. Eckardt
- V. Emelianov
- V. Faine
- V. Ghazikhanian
- V. Grigoriev
- V. Morozov
- V. Okorokov
- V. Perevoztchikov
- V. Rykov
- V. Tikhomirov
- V. Trofimov
- V.A. Moiseenko
- V.A. Nikitin
- V.A. Petrov
- V.B. Dunin
- V.I. Yurevich
- V.M. Leontiev
- V.S. Shvetcov
- V.V. Belaga
- W. Christie
- W. Peryt
- W.A. Love
- W.J. Llope
- W.M. Zhang
- W.S. Deng
- W.W. Jacobs
- Wang
- Wang
- Wang
- Wang
- Xu
- Y. Chen
- Y. Fisyak
- Y. Panebratsev
- Y.V. Zanevski
- Yu. Melnick
- Yu.A. Matulenko
- Yu.I. Ivanshin
- Z. Ahammed
- Z. Liu
- Z. Milosevich
- Z. Xu
- Publication venue
- 'Elsevier BV'
- Publication date
- 13/06/2002
- Field of study
Mid-rapidity transverse mass spectra and multiplicity densities of charged
and neutral kaons are reported for Au+Au collisions at \snn=130 GeV at RHIC.
The spectra are exponential in transverse mass, with an inverse slope of about
280 MeV in central collisions. The multiplicity densities for these particles
scale with the negative hadron pseudo-rapidity density. The charged kaon to
pion ratios are K+/π−=0.161±0.002(stat)±0.024(syst) and K−/π−=0.146±0.002(stat)±0.022(syst)
for the most central collisions. The K+/π− ratio is lower than the same
ratio observed at the SPS while the K−/π− is higher than the SPS result.
Both ratios are enhanced by about 50% relative to p+p and pˉ+p
collision data at similar energies.Comment: 6 pages, 3 figures, 1 tabl
Elliptic Flow of Identified Hadrons in Au+Au Collisions at sqrt(s_NN) = 200 GeV
- Author
- Adler S.S.
- Afanasiev S.
- Aidala C.
- Ajitanand N.N.
- Akiba Y.
- Alexander J.
- Amirikas R.
- Aphecetche Laurent
- Aronson S.H.
- Averbeck R.
- Awes T.C.
- Azmoun R.
- Babintsev V.
- Baldisseri A.
- Barish K.N.
- Barnes P.D.
- Bassalleck B.
- Bathe S.
- Batsouli S.
- Baublis V.
- Bazilevsky A.
- Belikov S.
- Berdnikov Y.
- Bhagavatula S.
- Boissevain J.G.
- Borel H.
- Borenstein S.
- Brooks M.L.
- Brown D.S.
- Bruner N.
- Bucher D.
- Buesching H.
- Bumazhnov V.
- Bunce G.
- Burward-Hoy J.M.
- Butsyk S.
- Camard X.
- Chai J.S.
- Chand P.
- Chang W.C.
- Chenawi K.E.
- Chernichenko S.
- Chi C.Y.
- Chiba J.
- Chiu M.
- Choi I.J.
- Choi J.
- Choudhury R.K.
- Chujo T.
- Cianciolo V.
- Cobigo Y.
- Cole B.A.
- Constantin P.
- D'Enterria D.G.
- David G.
- De Cassagnac R.G.
- Delagrange H.
- Denisov A.
- Deshpande A.
- Desmond E.J.
- Dietzsch O.
- Drapier O.
- Drees A.
- Du Rietz R.
- Durum A.
- Dutta D.
- Efremenko Y.V.
- En'Yo H.
- Enokizono A.
- Esumi S.
- Ewell L.
- Fields D.E.
- Fleuret F.
- Fokin S.L.
- Fox B.D.
- Fraenkel Z.
- Frantz J.E.
- Franz A.
- Frawley A.D.
- Fung S.Y.
- Garpman S.
- Ghosh T.K.
- Glenn A.
- Gogiberidze G.
- Gonin M.
- Gosset J.
- Goto Y.
- Grau N.
- Greene S.V.
- Guryn W.
- Gustafsson H.A.
- Hachiya T.
- Haggerty J.S.
- Hamagaki H.
- Hansen A.G.
- Hartouni E.P.
- Harvey M.
- Hayano R.
- He X.
- Heffner M.
- Hemmick T.K.
- Heuser J.M.
- Hibino M.
- Hill J.C.
- Holzmann W.
- Homma K.
- Hong B.
- Hoover A.
- Ichihara T.
- Ikonnikov V.V.
- Imai K.
- Isenhower L.D.
- Ishihara M.
- Issah M.
- Isupov A.
- Jacak B.V.
- Jang W.Y.
- Jeong Y.
- Jia J.
- Jinnouchi O.
- Johnson B.M.
- Johnson S.C.
- Joo K.S.
- Jouan D.
- Kametani S.
- Kamihara N.
- Kang J.H.
- Kapoor S.S.
- Katou K.
- Kelly Steven
- Khachaturov B.
- Khanzadeev A.
- Kikuchi J.
- Kim D.H.
- Kim D.J.
- Kim D.W.
- Kim E.
- Kim G.B.
- Kim H.J.
- Kistenev E.
- Kiyomichi A.
- Kiyoyama K.
- Klein-Boesing C.
- Kobayashi H.
- Kochenda L.
- Kochetkov V.
- Koehler D.
- Kohama T.
- Kopytine M.
- Kotchetkov D.
- Kozlov A.
- Kroon P.J.
- Kuberg C.H.
- Kurita K.
- Kuroki Y.
- Kweon M.J.
- Kwon Y.
- Kyle G.S.
- Lacey R.
- Ladygin V.
- Lajoie J.G.
- Lebedev A.,
- Leckey S.
- Lee D.M.
- Lee S.,
- Leitch M.J.
- Li X.H.
- Lim H.
- Litvinenko A.
- Liu M.X.
- Liu Yehan
- Maguire C.F.
- Makdisi Y.I.
- Malakhov A.
- Manko V.I.
- Mao Y.
- Martinez Garcia Gines
- Marx M.D.
- Masui H.
- Matathias F.
- Matsumoto T.
- McGaughey P.L.
- Melnikov E.
- Messer F.
- Miake Y.
- Milan J.
- Miller T.E.
- Milov A.
- Mioduszewski S.
- Mischke R.E.
- Mishra G.C.
- Mitchell J.T.
- Mohanty A.K.
- Morrison D.P.
- Moss J.M.
- Muhlbacher F.
- Mukhopadhyay D.
- Muniruzzaman M.
- Murata J.
- Nagamiya S.
- Nagle J.L.
- Nakamura T.
- Nandi B.K.
- Nara M.
- Newby J.
- Nilsson P.
- Nyanin A.S.
- Nystrand J.
- O'Brien E.
- Ogilvie C.A.
- Ohnishi H.
- Ojha I.D.
- Okada K.
- Ono M.
- Onuchin V.
- Oskarsson A.
- Otterlund I.
- Oyama K.
- Ozawa K.
- Pal D.
- Palounek A.P.T.
- Pantuev V.S.
- Papavassiliou V.
- Park J.
- Parmar A.
- Pate S.F.
- Peitzmann T.
- Peng J.C.
- Perdekamp M.G.
- Peresedov V.
- Pinkenburg C.
- Pisani R.P.
- Plasil F.
- Purschke M.L.
- Purwar A.
- Rak J.
- Ravinovich I.
- Read K.F.
- Reuter M.
- Reygers K.
- Riabov V.
- Riabov Y.
- Roche G.
- Romana A.
- Rosati M.
- Rosnet P.
- Ryu S.S.
- Sadler M.E.
- Saito N.
- Sakaguchi T.
- Sakai M.
- Sakai S.
- Samsonov V.
- Sanfratello L.
- Santo R.
- Sato H.D.
- Sato S.
- Sawada S.
- Schutz Y.
- Semenov V.
- Seto R.
- Shaw M.R.
- Shea T.K.
- Shibata T.A.
- Shigaki K.
- Shiina T.
- Silva C.L.
- Silvermyr D.
- Sim K.S.
- Singh C.P.
- Singh V.
- Sivertz M.
- Soldatov A.
- Soltz R.A.
- Sondheim W.E.
- Sorensen S.P.
- Sourikova I.V.
- Staley F.
- Stankus P.W.
- Stenlund E.
- Stepanov M.
- Ster A.
- Stoll S.P.
- Sugitate T.
- Sullivan J.P.
- Takagui E.M.
- Taketani A.
- Tamai M.
- Tanaka K.H.
- Tanaka Y.
- Tanida K.
- Tannenbaum M.J.
- Tarjan P.
- Tepe J.D.
- Thomas T.L.
- Tojo J.
- Torii H.
- Towell R.S.
- Tserruya I.
- Tsuruoka H.
- Tuli S.K.
- Tydesjo H.
- Tyurin N.
- Van-Hecke H.W.
- Velkovska J.
- Velkovsky M.
- Villatte L.
- Vinogradov A.A.
- Volkov M.A.
- Vznuzdaev E.
- Wang X.R.
- Watanabe Y.
- White S.N.
- Wohn F.K.
- Woody C.L.
- Xie W.
- Yang Y.
- Yanovich A.
- Yokkaichi S.
- Young G.R.
- Yushmanov I.E.
- Zajc W.A.
- Zhang C.
- Zhou S.
- Zolin L.
- Publication venue
- 'American Physical Society (APS)'
- Publication date
- 01/01/2003
- Field of study
The anisotropy parameter v_2, the second harmonic of the azimuthal particles
distribution, has been measured with the PHENIX detector in Au+Au collisions at
sqrt(s_NN) = 200 GeV for identified and inclusive charged particles at central
rapidities (|eta| < 0.35) with respect to the reaction plane defined at high
rapidities (|eta| = 3-4). The v_2 for all particles reaches a maximum at
mid-centrality, and increases with p_T up to 2 GeV/c and then saturates or
decreases slightly. Our results depart from hydrodynamically predicted behavior
above 2 GeV/c. A quark coalescence model is also investigated.Comment: 325 authors, 6 pages text, RevTeX, 3 figures, 0 tables. This version
accepted for publication in Phys. Rev. Lett. after minor changes in response
to referee suggestions. Plain text data tables for the points plotted in
figures for this and previous PHENIX publications are publicly available at
http://www.phenix.bnl.gov/papers.htm
Simulation of problems with free surfaces by a boundary element method
- Author
- A. Prosperetti
- A. Shima
- A. Shima
- A. Shima
- A. Shima
- A.G. Terentiev
- A.G. Terentiev
- A.M. Frank
- A.M. Frank
- A.M. Goudov
- B.E. Protopopov
- B.E. Protopopov
- C. Wu
- C.E. Synolakis
- D. Peregrine
- D.N. Gorelov
- D.N. Gorelov
- D.V. Maklakov
- D.V. Maklakov
- E.V. Sidyakin
- F.J. Seabra-Santos
- G. Lamb
- G.D. Domermuth
- G.G. Korotkov
- G.L. Chahine
- G.S. Khakimzyanov
- G.W. Pritchett
- H. Braess
- H. Gotoh
- H.N. Ogus
- I. Guler
- I.V. Grigorieva
- I.V. Grigorieva
- I.V. Sturova
- J.-C. Park
- J.L. Bona
- J.P. Best
- J.P. Best
- J.R. Blake
- J.R. Blake
- J.R. Blake
- J.R. Blake
- J.R. Blake
- J.R. Blake
- K. Kawasaki
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- K.E. Afanasiev
- L. Dragos
- L.G. Guzevski
- M. Grosenbaugh
- M. Landrini
- M. Mokry
- M.A. Lavrentiev
- M.A. Lavrentiev
- M.J. Cooker
- M.S. Plesset
- M.S. Plesset
- N.N. Moiseev
- N.N. Yasko
- O.M. Kiselev
- O.V. Voinov
- P. Ligneul
- P.A. Elmore
- P.I. Plotnikov
- P.J. Shopov
- Q.X. Wang
- R. Cerone
- R. Cole
- R. Knapp
- R.A. Ruziev
- S. Bal
- S.I. Gorlov
- S.M. Belotserkovski
- S.V. Manoilin
- S.V. Stukolov
- T. Cebeci
- T. Yasuda
- T.B. Benjamin
- T.M. Mitchell
- V.I. Bukreev
- V.K. Kedrinskij
- V.P. Zhitnikov
- V.V. Voevodin
- V.V. Voinov
- V.V. Voinov
- W. Lauterborn
- W.S. Hwang
- Y. Goda
- Y.I. Shokin
- Y.L. Levkovski
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/2005
- Field of study
Electrocatalysis of Hydrogen Evolution: Progress in Cathode Activation
- Author
- Abd El‐Halim A.M.
- Adžić R.R.
- Afanasiev B.N.
- Ai M.
- Amouyal E.
- Anisochkina E.N.
- Appleby A.J.
- Arold J.
- Avrushchenko A.E.
- Bailleaux C.
- Bairachnyi B.I.
- Balashova T.V.
- Benczur‐Urmassy G.
- Bianchi G.
- Bockris J. O'M.
- Bockris J.O'M.
- Boikova G.V.
- Boikova G.V.
- Boodts J.C. F.
- Brainina Kh. Z.
- Brewer L.
- Brown D.E.
- Brynza A.P.
- Burkaltseva L.A.
- Burshtein R.Kh.
- Bushnell S.W.
- Bystrov V.I.
- Bélanger B.
- Cairns J.F.
- Chernyi V.V.
- Cocke D.L.
- Combrade B.
- Conway B.E.
- Dakhov V.N.
- Darlington W.B.
- Davydov A.D.
- De Carvalho J.
- De Nora O.
- Debrodt H.
- DeLuccia J.J.
- Dražić D.M.
- Egorov V.V.
- Enyo M.
- Fateev V.N.
- Grishina T.M.
- Grishina T.M.
- Grove D.E.
- Gutmann F.
- Hall D.E.
- Hashimoto K.
- Heidrich H.‐J.
- Heusler K.E.
- Horacek J.
- Horiuti J.
- Huot J.Y.
- Huot J.‐Y.
- Ivanov I.P.
- Ivanova A.S.
- Ivanova A.S.
- Jakšić M.M.
- Jakšić M.M.
- Jakšić M.M.
- Jakšić M.M.
- Jiang Z.Y.
- Johnson O.
- Justi E.
- Kabanov B.N.
- Kavardakov N.I.
- Kh. Burshtein R.
- Kh. Burshtein R.
- Khan S.U. M.
- Kheifets V.L.
- Khomutov N.E.
- Kichigin V.I.
- Kichigin V.I.
- Kichigin V.I.
- Kim N.N.
- Kim N.N.
- Kita H.
- Kolb D.M.
- Kopylova N.S.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Korovin N.V.
- Krasikov V.L.
- Kriksunov L.B.
- Kriksunov L.B.
- Krishtalik L.I.
- Krishtalik L.I.
- Krishtalik L.I.
- Krishtalik L.I.
- Krishtalik L.I.
- Kronenberg M.L.
- Kuhn A.T.
- Kuzminskii E.E.
- Kuznetsov A.A.
- Lapa A.S.
- Lavrenko V.A.
- Lačnjevac C.M.
- Liederbach T.A.
- Machida K.
- Mahmmood M.N.
- Matsuda A.
- Meretskii A.M.
- Mills A.
- Modestova V.N.
- Morachevskii A.G.
- Müller L.
- Nagamura M.
- Naka M.
- Naryshkin D.G.
- Naryshkin D.G.
- Nefedov V.G.
- Neumann‐Spallart M.
- Nicolas E.
- Nidola A.
- Nidola A.
- Nidola A.
- Nidola A.
- Nidola A.
- Nidola A.
- Noninski Kh.I.
- Novoselskii I.M.
- Novoselskii I.M.
- Ogata Y.
- Ohmori T.
- Ohmori T.
- Ohta T.
- Ohtani N.
- Padyukova G.L.
- Padyukova G.L.
- Palm U.V.
- Poplavskii V.V.
- Popov K.I.
- Potapova E.N.
- Prigent M.
- Pshenichnikov A.G.
- Pshenichnikov A.G.
- Pyshnograeva I.I.
- Radovici O.
- Raj I.A.
- Raj I.A.
- Sakata T.
- Saraby‐Reintjes A.
- Sasaki T.
- Scherer G.G.
- Schlapbach L.
- Schnurnberger W.
- Schoegl R.
- Schulz R.
- Searson P.C.
- Senda A.
- Shalyukhin V.G.
- Shavkunov S.P.
- Shavkunov S.P.
- Shavkunov S.P.
- Shein A.B.
- Shibata M.
- Simmrock K.H.
- Sisenov G.K.
- Sokolskii D.V.
- Sokolskii D.V.
- Spaziante P.M.
- Spaziante P.M.
- Srinivasan S.
- Struck B.D.
- Sukhotin A.M.
- Sutyagina A.A.
- Swarup J.
- Szabó K.
- Tamm J.
- Tamm J.
- Tamm L.V.
- Tamm L.V.
- Tamm L.V.
- Terminasow Y.S.
- Tilak B.V.
- Tilak B.V.
- Trasatti S.
- Trasatti S.
- Trasatti S.
- Trasatti S.
- Trasatti S.
- Trasatti S.
- Trusov G.N.
- Tseung A.C. C.
- Tsionskii V.M.
- Tsionskii V.M.
- Tsirlina G.A.
- Tsirlina G.A.
- Vares P.M.
- Vasilenko I.I.
- Vert Zh. L.
- von Bradke M.
- Welch C.
- Wendt H.
- Winkler K.
- Ya. Kolotyrkin M.
- Ya. Kolotyrkin M.
- Ya. Moizhes B.
- Ya. Shaidullin R.
- Ya. Shaidullin R.
- Yamaguchi K.
- Yamakawa K.
- Yasuda M.
- Yeager E.
- Yegnaraman V.
- Yoshida M.
- Yoshida N.
- Yu. Firsova L.
- Yu. Vasiliev V.
- Yu. Vassiliev B.
- Yu.Kharkats I.
- Zakarina N.A.
- Zakumbaeva G.D.
- Publication venue
- 'Wiley'
- Publication date
- Field of study
Measurement of single-diffractive dijet production in proton–proton collisions at √s=8Te with the CMS and TOTEM experiments
- Publication venue
- Publication date
- 01/01/2020
- Field of study
Measurements are presented of the single-diffractive dijet cross section and the diffractive cross section as a function of the proton fractional momentum loss ξ and the four-momentum transfer squared t. Both processes pp→pX and pp→Xp, i.e. with the proton scattering to either side of the interaction point, are measured, where X includes at least two jets; the results of the two processes are averaged. The analyses are based on data collected simultaneously with the CMS and TOTEM detectors at the LHC in proton–proton collisions at s=8Te during a dedicated run with β∗=90m at low instantaneous luminosity and correspond to an integrated luminosity of 37.5nb-1. The single-diffractive dijet cross section σjjpX, in the kinematic region ξ&lt; 0.1 , 0.03&lt;|t|&lt;1Ge2, with at least two jets with transverse momentum pT&gt;40Ge, and pseudorapidity | η| &lt; 4.4 , is 21.7±0.9(stat)-3.3+3.0(syst)±0.9(lumi)nb. The ratio of the single-diffractive to inclusive dijet yields, normalised per unit of ξ, is presented as a function of x, the longitudinal momentum fraction of the proton carried by the struck parton. The ratio in the kinematic region defined above, for x values in the range - 2.9 ≤ log 10x≤ - 1.6 , is R=(σjjpX/Δξ)/σjj=0.025±0.001(stat)±0.003(syst), where σjjpX and σjj are the single-diffractive and inclusive dijet cross sections, respectively. The results are compared with predictions from models of diffractive and nondiffractive interactions. Monte Carlo predictions based on the HERA diffractive parton distribution functions agree well with the data when corrected for the effect of soft rescattering between the spectator partons. © 2020, CERN for the benefit of the CMS and TOTEM collaborations
Measurements with silicon photomultipliers of dose-rate effects in the radiation damage of plastic scintillator tiles in the CMS hadron endcap calorimeter
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- Publication venue
- 'IOP Publishing'
- Publication date
- 01/01/2020
- Field of study
Measurements are presented of the reduction of signal output due to radiation damage for two types of plastic scintillator tiles used in the hadron endcap (HE) calorimeter of the CMS detector. The tiles were exposed to particles produced in proton-proton (pp) collisions at the CERN LHC with a center-of-mass energy of 13 TeV, corresponding to a delivered luminosity of 50 fb-1. The measurements are based on readout channels of the HE that were instrumented with silicon photomultipliers, and are derived using data from several sources: A laser calibration system, a movable radioactive source, as well as hadrons and muons produced in pp collisions. Results from several irradiation campaigns using 60Co sources are also discussed. The damage is presented as a function of dose rate. Within the range of these measurements, for a fixed dose the damage increases with decreasing dose rate
A Deep Neural Network for Simultaneous Estimation of b Jet Energy and Resolution
- Publication venue
- Publication date
- 01/01/2020
- Field of study
We describe a method to obtain point and dispersion estimates for the energies of jets arising from b quarks produced in proton–proton collisions at an energy of s=13TeV at the CERN LHC. The algorithm is trained on a large sample of simulated b jets and validated on data recorded by the CMS detector in 2017 corresponding to an integrated luminosity of 41 fb-1. A multivariate regression algorithm based on a deep feed-forward neural network employs jet composition and shape information, and the properties of reconstructed secondary vertices associated with the jet. The results of the algorithm are used to improve the sensitivity of analyses that make use of b jets in the final state, such as the observation of Higgs boson decay to b b ¯. © 2020, The Author(s)