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BEAM TESTS OF THE ZEUS BARREL CALORIMETER
- Authors :
- ZEUS Collaboration M. Derrick
D. Krakauer
S. Magill
B. Musgrave
J. Repond
S. Repond
R. Stanek
R. L. Talaga
J. Thron Argonne National Laboratory
Argonne, IL
USA 47 F. Arzarello
R. Ayad l
G. Bari
M. Basile
L. Bellagamba
D. Boscherini
A. Bruni
G. Bruni
P. Bruni
G. Cara Romeo
G. Castellini 2
M. Chiarini
L. Cifarelli
F. Cindolo
F. Ciralli
A. Contin
S. D'Auria
C. Del Papa
F. Frasconi
P. Giusti
G. Iacobucci
G. Laurenti
G. Levi
Q. Lin
B. Lisowski
G. Maccarrone
A. Margotti
T. Massam
R. Nania
C. Nemoz
F. Palmonari
G. Sartorelli
R. Timellini
Y. Zamora Garcia l
A. Zichichi University
INFN Bologna
Bologna
Italy 39 A. Bargende
J. Crittenden
K. Desch
B. Diekmann
T. Doeker
A. Frey
M. Geerts
G. Geitz
H. Hartmann
D. Haun
K. Heinloth
E. Hilger
H. P. Jakob
S. Kramarczyk
M. Kiickes 3
A. Mass
S. Mengel
J. Mollen
D. Monaldi4
H. Miisch 5
E. Paul
R. Schattevoy
J. L. Schneider
D. Schramm
R. Wedemeyer Physikalisches Institut der Universitiit Bonn
Bonn
Federal Republic of Germany 36 A. Cassidy
D. G. Cussans
N. Dyce
B. Foster
R. Gilmore
G. P. Heath
H. F. Heath
M. Lancaster
T. J. Llewellyn
J. Malos
C. J. S. Morgado
R. J. Tapper
S. S. Wilson
R. Yoshida H. H. Wills Physics Laboratory
University of Bristol
Bristol
UK 46 R. R. Rau Brookhaven National Laboratory
Upton, L. I.
USA 47 M. Arneodo
M. Schioppa
G. Susinno Calabria University
Physics Department
INFN, Cosenza
Italy 39 A. Bernstein
A. Caldwell
I. Gialas
J. A. Parsons
S. Ritz
F. Sciulli 6
P. B. Straub
L. Wai
S. Yang Columbia University
Nevis Labs
Irvington on Hudson
USA 48 P. Borzemski
J. Chwastowski 7
A. Dwura~ny
A. Eskreys
Z. Jakubowski 8 B. Niziot
K. Piotrzkowski
M. Zachara
L. Zawiejski Institute of Nuclear Physics
Cracow
Poland 43 L. Adamczyk
B. Bednarek
K. Eskreys
K. Jelefi
D. Kisielewska
T. Kowalski
E. Rulikowska Zar~bska
L. Suszycki
J. Zaj0c Faculty of Physics
Nuclear T.e.c.h.n.i.q.u.e.s. Academy of Mining
Metallurgy, Cracow
Poland 43 T. Kgdzierski
A. Kotafiski
M. Przybyciefi Jagellonian University
Department of Physics
Poland 43 L. A. T. Bauerdick
U. Behrens
J. K. Bienlein
S. B6ttcher
C. Coldewey
A. Dannemann
G. Drews
P. Erhard 9
M. Flasifiski 10
I. Fleck
R. Gl~iser l. l
p. G6ttlicher
B. Gutjahr
T. Haas
L. Hagge
W. Hain
D. Hasell
H. Hultschig
G. Jahnen 12
p. Joos
M. Kasemann
R. Klanner
W. Koch
L. K6pke
U. K6tz
H. Kowalski
W. Kr6ger
J. Kriiger
J. Labs
A. Ladage
B. L6hr
M. L6we
D. Lfike
J. Mainusch
O. Manczak
M. Momayezi 13
J. S. T. Ng
S. Nickel
D. Notz
K. U. P6snecker 14
M. Rohde
J. Roldfin 15
E. Ros 7
U. Schneekloth
J. Schroeder
W. Schulz
F. Selonke
E. Stiliaris 15
E. Tscheslog 17
T. Tsurugai
W. Vogel 17
G. Wolf
C. Youngman Deutsches Elektronen Synchrotron DESE Hamburg
Federal Republic of Germany H. J. Grabosch
A. Leich
A. Meyer
C. Rethfeldt
S. Schlenstedt DESY Zeuthen
Institut fiir Hochenergiephysik
Zeuthen
Federal Republic of Germany G. Barbagli
A. Francescato
M. Nuti
P. Pelfer University
INFN, Florence
Italy 39 G. Anzivino
R. Casaccia
S. De Pasquale
S. Qian
L. Votano INFN
Laboratori Nazionali di Frascati
Frascati
Italy 39 A. Bamberger
A. Freidhof
T. Poser
S. S61dner Rembold
G. Theisen
T. Trefzger Physikalisches Institut der Universitgit Freiburg
Freiburg
Federal Republic of Germany 36 N. H. Brook
P. J. Bussey
A. T. Doyle
J. R. Forbes
V. A. Jamieson
C. Raine
D. H. Saxon Department of Physics
Astronomy
University of Glasgow
Glasgow
UK 46 H. Brtickmann 18
G. Gloth
U. Holm
H. Kammerlocher
B. Krebs
T. Neumann
K. Wick Hamburg University
1st Institute of Experimental Physics
Hamburg
Federal Republic of Germany 36 A. Fiirtjes
E. Lohrmann
J. Milewski 19
M. Nakahata 2°
N. Pavel
G. Poelz
W. Schott
J. Terron 15
F. Zetsche Hamburg U.n.i.v.e.r.s.i.t.y. Hnd Institute ofExperimental Physics
Federal Republic of Germany 36 T. C. Bacon
R. Beuselinck
I. Butterworth
E. Gallo
V. L. Harris
D. B. Miller
A. Prinias
J. K. Sedgbeer
A. Vorvolakos
A. Whitfield Imperial College London
High Energy Nuclear Physics Group
London
UK 46 T. Bienz
H. Kreutzmann
U. Mallik
E. McCliment
M. Roco
M. Z. Wang University of lowa
Physics
Astronomy Department
Iowa City
USA 47 P. Cloth
D. Filges Forschungszentrum Jiilich
lnstitut fiir Kernphysik
J.i.i.l.i.c.h. Federal Republic of Germany S. H. An
S. M. Hong
C. O. Kim
T. Y. Kim
S. W. Nam
S. K. Park
M. H. Suh
S. H. Yon Korea University
Seou[
Korea 4] R. Imlay
S. Kartik
H. J. Kim
R. R. McNeil
W. Metcalf
V. K. Nadendla Louisiana State University
Department ~ Physics
Baton Rouge
USA 47 F. Barreiro 21
G. Cases
L. Herv~s 22
L. Labarga 22
j. del Peso
J. F. de Troc6niz 23 U.n.i.v.e.r. Aut6noma Madrid
Depto de Fisica Te6rlca
Madrid
Spain 45 F. Ikraiam
J. K. Mayer
G. R. Smith University of Manitoba
Winnipeg, Manitoba
Canada 34 F. Corriveau
D. J. Gilkinson
D. S. Hanna 6
j. Hartmann
L. W. Hung
J. N. Lira
R. Meijer Drees
J. W. Mitchell
P. M. Patel
L. E. Sinclair
D. G. Stairs
M. S.t. Laurent
R. Ullmann McGill University
Montreal, Quebec
Canada 34
35 G. L. Bashindzhagyan
P. F. Ermolov
L. K. Gladilin
Y. A. Golubkov
V. A. Kuzmin
E. N. Kuznetsov
A. A. Savin
A. G. Voronin
N. P. Zotov Moscow State University
Institute of Nuclear Pysics
Moscow
Russia 44 S. Bentvelsen
M. Botje
A. Dake
J. Engelen
P. de Jong
M. de Kamps
P. Kooijman
A. Kruse
H. van der Lugt
V. O'Dell
A. Tenner
H. Tiecke
H. Uijterwaa124
M. Vreeswijk
L. Wiggers
E. de Wolf
R. van Woudenberg N1KHEF Amsterdam
Amsterdam
Netherlands 42 B. Bylsma
L. S. Durkin
K. Honscheid
C. Li
T. Y. Ling
K. W. McLean
W. N. Murray
I. H. Park
T. A. Romanowski 25 R. Seidlein Ohio State University
Columbus, OH
USA 47 G. A. Blair
A. Byrne
R. J. Cashmore
A. M. Cooper Sarkar
R. C. E. Devenish
D. M. Gingrich 26
P. M. Hallam Baker 7 N. Harnew
T. Khatri
K. R. Long
P. Luffman
1. McArthur
P. Morawitz
J. Nash
S. J. P. Smith 27
N. C. Roocroft
F. F. Wilson Department of Physics
University of Oxford
Oxford
UK 46 G. Abbiendi
R. Brugnera
R. Carlin
F. Dal Corso
M. De Giorgi
U. Dosselli
F. Gasparini
S. Limentani
M. Morandin
M. Posocco
L. Stanco
R. Stroili
C. Voci Dipartimento di Fisica dell Universita
INFN, Padova
ltaly 39 J. M. Butterworth
J. Bulmahn
G. Feild
B. Y. Oh 28
j. Whitmore 29 Pennsylvania State University
University Park
USA 48 U. Contino
G. D'Agostini
M. Guida 30
M. Iori
G. Marini
M. Mattioli
A. Nigro Dipartimento di Fisica
Universiffz 'La Sapienza
INFN, Rome
Italy 39 J. C. Hart
N. A. McCubbin
K. Prytz
T. P. Shah
T. L. Short Rutherford Appleton Laboratory
Chilton, Didcot
Oxon
UK 46 E. Barberis
N. Cartiglia
C. Heusch
B. Hubbard
J. Leslie
W. Lockman
K. O'Shaughnessy
H. F. Sadrozinski
A. Seiden
D. Zer Zion University of California
Santa Cruz
USA 47 E. Badura
J. Biltzinger
R. J. Seifert
A. H. Walenta
G. Zech Fachbereich Physik der Universitgit Gesamthochschule Siegen
Siegen
Federal Republic of Germany 36 S. Dagan 31
A. Levy School of Physics
Tel Aviv University
Tel Aviv
Israel 38 T. Hasegawa
M. Hazumi
T. Ishii
S. Kasai 32
M. Kuze
S. Mine
Y. Nagasawa
T. Nagira
M. Nakao
H. Okuno
I. Suzuki
K. Tokushuku
S. Yamada
Y. Yamazaki Institute for Nuclear Study
University of Tokyo
Tokyo
Japan 4° M. Chiba
R. Hamatsu
T. Hirose
S. Kitamura
S. Nagayama
Y. Nakamitsu Tokyo Metropolitan University
Japan 4° R. Cirio
M. Costa
M. I. Ferrero
L. Lamberti
S. Maselli
C. Peroni
A. Solano
A. Staiano Universith di Torino
Dipartimento di Fisica Sperimentale
INFN, Torino
Italy 39 M. Dardo Facultd di Scienze
University of Torino
Alessandria
INFN Sezione di Torino
Torino
Italy 39 D. C. Bailey
D. Bandyopadhyay
F. Benard
S. Bhadra
M. Brkic
B. D. Burow
F. S. Chlebana
M. B. Crombie
G. F. Hartner
G. M. Levman
J. F. Martin
R. S. Orr
J. D. Prentice
C. R. Sampson
G. G. Stairs
R. J. Teuscher
T. S. Yoon University of Toronto
Toronto, O.n.t.
Canada 34 F. W. Bullock
C. D. Catterall
J. C. Giddings
T. W. Jones
A. M. Khan
J. B. Lane
P. L. Makkar
D. Shaw
J. Shulman University College London
UK 46 K. Blankenship
J. Kochocki
B. Lu
L. W. Mo Virginia Polytechnic Institute
State University
Blacksburg, VA
USA 48 K. Charchuta
J. Ciborowski
J. Gajewski
G. Grzelak
M. Kasprzak
M. Krzyzanowski
K. Muchorowski
R. J. Nowak
J. M. Pawlak
A. Stopczyfiski
T. Tymieniecka
R. Walczak
A. K. Wr6blewski
J. A. Zakrzewski
A. F. Zarnecki Warsaw University
Institute of Experimental Physics
Warsaw
Poland 43 M. Adamus Institute for Nuclear Studies
Poland 43 H. Abramowicz 19
y. Eisenberg
C. Glasman 33
U. Karshon 31
A. Montag 3J
D. Revel
A. Shapira Weizmann Institute
Nuclear Physics Department
Rehovot
Israel 37 C. Foudas
C. Fordham
R. J. Loveless
A. Goussiou
I. Ali
B. Behrens
S. Dasu
D. D. Reeder
W. H. Smith
S. Silverstein University of Wisconsin
Madison, W1
USA 47 W. R. Frisken
K. M. Furutani
Y. Iga York University
North York
O.n.t.
MARI, Stefano Maria
ZEUS Collaboration M., Derrick
D., Krakauer
S., Magill
B., Musgrave
J., Repond
S., Repond
R., Stanek
R. L., Talaga
J., Thron Argonne National Laboratory
Argonne, Il
USA 47 F., Arzarello
R., Ayad l
G., Bari
M., Basile
L., Bellagamba
D., Boscherini
A., Bruni
G., Bruni
P., Bruni
G., Cara Romeo
G., Castellini 2
M., Chiarini
L., Cifarelli
F., Cindolo
F., Ciralli
A., Contin
S., D'Auria
C., Del Papa
F., Frasconi
P., Giusti
G., Iacobucci
G., Laurenti
G., Levi
Q., Lin
B., Lisowski
G., Maccarrone
A., Margotti
T., Massam
R., Nania
C., Nemoz
F., Palmonari
G., Sartorelli
R., Timellini
Y., Zamora Garcia l
A., Zichichi University
Infn, Bologna
Bologna
Italy 39 A., Bargende
J., Crittenden
K., Desch
B., Diekmann
T., Doeker
A., Frey
M., Geert
G., Geitz
H., Hartmann
D., Haun
K., Heinloth
E., Hilger
H. P., Jakob
S., Kramarczyk
M., Kiickes 3
A., Ma
S., Mengel
J., Mollen
D., Monaldi4
H., Miisch 5
E., Paul
R., Schattevoy
J. L., Schneider
D., Schramm
R., Wedemeyer Physikalisches Institut der Universitiit Bonn
Bonn
Federal Republic of Germany 36 A., Cassidy
D. G., Cussan
N., Dyce
B., Foster
R., Gilmore
G. P., Heath
H. F., Heath
M., Lancaster
T. J., Llewellyn
J., Malo
C. J. S., Morgado
R. J., Tapper
S. S., Wilson
R. Yoshida H. H., Wills Physics Laboratory
University of, Bristol
Bristol
UK 46 R. R., Rau Brookhaven National Laboratory
Upton, L. I.
Ny
USA 47 M., Arneodo
M., Schioppa
G., Susinno Calabria University
Physics, Department
Infn, Cosenza
Italy 39 A., Bernstein
A., Caldwell
I., Giala
J. A., Parson
S., Ritz
F., Sciulli 6
P. B., Straub
L., Wai
S., Yang Columbia University
Nevis, Lab
Irvington on, Hudson
USA 48 P., Borzemski
J., Chwastowski 7
A., Dwura~ny
A., Eskrey
Z. Jakubowski 8 B., Niziot
K., Piotrzkowski
M., Zachara
L., Zawiejski Institute of Nuclear Physic
Cracow
Poland 43 L., Adamczyk
B., Bednarek
K., Eskrey
K., Jelefi
D., Kisielewska
T., Kowalski
E., Rulikowska Zar~bska
L., Suszycki
J., Zaj0c Faculty of Physic
Academy of Mining, Nuclear T. e. c. h. n. i. q. u. e. s.
Metallurgy, Cracow
Poland 43 T., Kgdzierski
A., Kotafiski
M., Przybyciefi Jagellonian University
Department of, Physic
Poland 43 L. A. T., Bauerdick
U., Behren
J. K., Bienlein
S., B6ttcher
C., Coldewey
A., Dannemann
G., Drew
P., Erhard 9
M., Flasifiski 10
I., Fleck
R. Gl~iser l., L
P., G6ttlicher
B., Gutjahr
T., Haa
L., Hagge
W., Hain
D., Hasell
H., Hultschig
G., Jahnen 12
P., Joo
M., Kasemann
R., Klanner
W., Koch
L., K6pke
U., K6tz
H., Kowalski
W., Kr6ger
J., Kriiger
J., Lab
A., Ladage
B., L6hr
M., L6we
D., Lfike
J., Mainusch
O., Manczak
M., Momayezi 13
J. S. T., Ng
S., Nickel
D., Notz
K. U., P6snecker 14
M., Rohde
J., Roldfin 15
E., Ros 7
U., Schneekloth
J., Schroeder
W., Schulz
F., Selonke
E., Stiliaris 15
E., Tscheslog 17
T., Tsurugai
W., Vogel 17
G., Wolf
C., Youngman Deutsches Elektronen Synchrotron DESE Hamburg
Federal Republic of Germany H. J., Grabosch
A., Leich
A., Meyer
C., Rethfeldt
S., Schlenstedt DESY Zeuthen
Institut fiir, Hochenergiephysik
Zeuthen
Federal Republic of Germany G., Barbagli
A., Francescato
M., Nuti
P., Pelfer University
Infn, Florence
Italy 39 G., Anzivino
R., Casaccia
S., De Pasquale
S., Qian
L., Votano INFN
Laboratori Nazionali di, Frascati
Frascati
Italy 39 A., Bamberger
A., Freidhof
T., Poser
S., S61dner Rembold
G., Theisen
T., Trefzger Physikalisches Institut der Universitgit Freiburg
Freiburg
Federal Republic of Germany 36 N. H., Brook
P. J., Bussey
A. T., Doyle
J. R., Forbe
V. A., Jamieson
C., Raine
D. H., Saxon Department of Physic
Astronomy
University of, Glasgow
Glasgow
UK 46 H., Brtickmann 18
G., Gloth
U., Holm
H., Kammerlocher
B., Kreb
T., Neumann
K., Wick Hamburg University
1st Institute of Experimental, Physic
Hamburg
Federal Republic of Germany 36 A., Fiirtje
E., Lohrmann
J., Milewski 19
M., Nakahata 2°
N., Pavel
G., Poelz
W., Schott
J., Terron 15
Hnd Institute ofExperimental Physics, F. Zetsche Hamburg U. n. i. v. e. r. s. i. t. y.
Federal Republic of Germany 36 T. C., Bacon
R., Beuselinck
I., Butterworth
E., Gallo
V. L., Harri
D. B., Miller
A., Prinia
J. K., Sedgbeer
A., Vorvolako
A., Whitfield Imperial College London
High Energy Nuclear Physics, Group
London
UK 46 T., Bienz
H., Kreutzmann
U., Mallik
E., Mccliment
M., Roco
M. Z., Wang University of lowa
Physics
Astronomy, Department
Iowa, City
USA 47 P., Cloth
D., Filges Forschungszentrum Jiilich
lnstitut fiir, Kernphysik
J. i. i. l. i. c. h. Federal Republic of Germany S. H., An
S. M., Hong
C. O., Kim
T. Y., Kim
S. W., Nam
S. K., Park
M. H., Suh
S. H., Yon Korea University
Seou[
Korea 4] R., Imlay
S., Kartik
H. J., Kim
R. R., Mcneil
W., Metcalf
V. K., Nadendla Louisiana State University
Department, ~ Physic
Baton, Rouge
La
USA 47 F., Barreiro 21
G., Case
L., Herv~s 22
L., Labarga 22
J., del Peso
Aut6noma Madrid, J. F. de Troc6niz 23 U. n. i. v. e. r.
Depto de Fisica, Te6rlca
Madrid
Spain 45 F., Ikraiam
J. K., Mayer
G. R., Smith University of Manitoba
Winnipeg, Manitoba
Canada 34 F., Corriveau
D. J., Gilkinson
D. S., Hanna 6
J., Hartmann
L. W., Hung
J. N., Lira
R., Meijer Dree
J. W., Mitchell
P. M., Patel
L. E., Sinclair
D. G., Stair
Laurent, M. S. t.
R., Ullmann McGill University
Montreal, Quebec
Canada, 34
35 G. L., Bashindzhagyan
P. F., Ermolov
L. K., Gladilin
Y. A., Golubkov
V. A., Kuzmin
E. N., Kuznetsov
A. A., Savin
A. G., Voronin
N. P., Zotov Moscow State University
Institute of Nuclear, Pysic
Moscow
Russia 44 S., Bentvelsen
M., Botje
A., Dake
J., Engelen
P., de Jong
M., de Kamp
P., Kooijman
A., Kruse
H., van der Lugt
V., O'Dell
A., Tenner
H., Tiecke
H., Uijterwaa124
M., Vreeswijk
L., Wigger
E., de Wolf
R., van Woudenberg N1KHEF Amsterdam
Amsterdam
Netherlands 42 B., Bylsma
L. S., Durkin
K., Honscheid
C., Li
T. Y., Ling
K. W., Mclean
W. N., Murray
I. H., Park
T. A. Romanowski 25 R., Seidlein Ohio State University
Columbus, Oh
USA 47 G. A., Blair
A., Byrne
R. J., Cashmore
A. M., Cooper Sarkar
R. C. E., Devenish
D. M., Gingrich 26
P. M. Hallam Baker 7 N., Harnew
T., Khatri
K. R., Long
P., Luffman
1., Mcarthur
P., Morawitz
J., Nash
S. J. P., Smith 27
N. C., Roocroft
F. F., Wilson Department of Physic
University of, Oxford
Oxford
UK 46 G., Abbiendi
R., Brugnera
R., Carlin
F., Dal Corso
M., De Giorgi
U., Dosselli
F., Gasparini
S., Limentani
M., Morandin
M., Posocco
L., Stanco
R., Stroili
C., Voci Dipartimento di Fisica dell Universita
Infn, Padova
ltaly 39 J. M., Butterworth
J., Bulmahn
G., Feild
B. Y., Oh 28
J., Whitmore 29 Pennsylvania State University
University, Park
Pa
USA 48 U., Contino
G., D'Agostini
M., Guida 30
M., Iori
Mari, Stefano Maria
G., Marini
M., Mattioli
A., Nigro Dipartimento di Fisica
Universiffz 'La, Sapienza
Infn, Rome
Italy 39 J. C., Hart
N. A., Mccubbin
K., Prytz
T. P., Shah
T. L., Short Rutherford Appleton Laboratory
Chilton, Didcot
Oxon
UK 46 E., Barberi
N., Cartiglia
C., Heusch
B., Hubbard
J., Leslie
W., Lockman
K., O'Shaughnessy
H. F., Sadrozinski
A., Seiden
D., Zer Zion University of California
Santa, Cruz
Ca
USA 47 E., Badura
J., Biltzinger
R. J., Seifert
A. H., Walenta
G., Zech Fachbereich Physik der Universitgit Gesamthochschule Siegen
Siegen
Federal Republic of Germany 36 S., Dagan 31
A., Levy School of Physic
Tel Aviv, University
Tel, Aviv
Israel 38 T., Hasegawa
M., Hazumi
T., Ishii
S., Kasai 32
M., Kuze
S., Mine
Y., Nagasawa
T., Nagira
M., Nakao
H., Okuno
I., Suzuki
K., Tokushuku
S., Yamada
Y., Yamazaki Institute for Nuclear Study
University of, Tokyo
Tokyo
Japan 4° M., Chiba
R., Hamatsu
T., Hirose
S., Kitamura
S., Nagayama
Y., Nakamitsu Tokyo Metropolitan University
Japan 4° R., Cirio
M., Costa
M. I., Ferrero
L., Lamberti
S., Maselli
C., Peroni
A., Solano
A., Staiano Universith di Torino
Dipartimento di Fisica, Sperimentale
Infn, Torino
Italy 39 M., Dardo Facultd di Scienze
University of, Torino
Alessandria
INFN Sezione di, Torino
Torino
Italy 39 D. C., Bailey
D., Bandyopadhyay
F., Benard
S., Bhadra
M., Brkic
B. D., Burow
F. S., Chlebana
M. B., Crombie
G. F., Hartner
G. M., Levman
J. F., Martin
R. S., Orr
J. D., Prentice
C. R., Sampson
G. G., Stair
R. J., Teuscher
T. S., Yoon University of Toronto
Toronto, O. n. t.
Canada 34 F. W., Bullock
C. D., Catterall
J. C., Gidding
T. W., Jone
A. M., Khan
J. B., Lane
P. L., Makkar
D., Shaw
J., Shulman University College London
UK 46 K., Blankenship
J., Kochocki
B., Lu
L. W., Mo Virginia Polytechnic Institute
State, University
Blacksburg, Va
USA 48 K., Charchuta
J., Ciborowski
J., Gajewski
G., Grzelak
M., Kasprzak
M., Krzyzanowski
K., Muchorowski
R. J., Nowak
J. M., Pawlak
A., Stopczyfiski
T., Tymieniecka
R., Walczak
A. K., Wr6blewski
J. A., Zakrzewski
A. F., Zarnecki Warsaw University
Institute of Experimental, Physic
Warsaw
Poland 43 M., Adamus Institute for Nuclear Studie
Poland 43 H., Abramowicz 19
Y., Eisenberg
C., Glasman 33
U., Karshon 31
A., Montag 3J
D., Revel
A., Shapira Weizmann Institute
Nuclear Physics, Department
Rehovot
Israel 37 C., Fouda
C., Fordham
R. J., Lovele
A., Goussiou
I., Ali
B., Behren
S., Dasu
D. D., Reeder
W. H., Smith
S., Silverstein University of Wisconsin
Madison, W1
USA 47 W. R., Frisken
K. M., Furutani
Y., Iga York University
North, York
O. n., T. - Publication Year :
- 1993
-
Abstract
- A fully compensating uranium—scintillator calorimeter was constructed for the ZEUS detector at HERA. Several of the barrel calorimeter modules were subjected to beam tests at Fermilab before shipping them to DESY for installation. The calibrations of the modules used beams of electrons and hadrons, measuring the uniformity of the response, and checking the resolution. The runs also provided opportunity to test a large fraction of the actual ZEUS calorimeter readout system in an integrated beam environment more than one year before HERA turn on. The experiment utilized two computer controlled mechanical structures, one of which was capable of holding up to four modules in order to study shower containment, and a magnetic spectrometer with a high resolution beam tracking system. During two running periods, beams of 6 to 110 GeV containing e, μ, π, and p were used. The results show energy resolutions of 35%/ E for hadrons and 19%/ E for electrons, uniformities at the 1% level, energy nonlinearity less than 1%, and equal response for electrons and hadrons.
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....d7cdf56d12155f39f5012fa49a2c1581