UA2 at the CERN proton antiproton collider...in electromagnetic calorimeters; energy leakage in...
Transcript of UA2 at the CERN proton antiproton collider...in electromagnetic calorimeters; energy leakage in...
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UA2 at the CERN proton – antiproton collider
Luigi Di Lella
Physics Dept., University of Pisa
Daniel Foidevaux Fest
November 22, 2019
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first measurement of the weak mixing angle qw
first quantitative prediction of the W± and Z mass values:
1973 Discovery of neutral – current neutrino interactions at CERN:
the first experimental evidence in favour of the unified
electro-weak theory.
mW = 60 – 80 GeV
mZ = 75 – 95 GeV
too large to be produced by any existing accelerators
The ideal machine to produce and study the W and Z bosons
in the most convenient experimental conditions: a high-energy e+e- collider
Zee -+ -+-+ WWee
still far in the future in the 1970’s (first operation of LEP in 1989)
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1976: THE SHORTCUT TO W AND Z PRODUCTION(presented at the Neutrino 76 conference in Aachen)
Collider luminosity needed for
W and Z production requires to
increase the p phase-space density
between p production and injection
into the high-energy ring by ≥108
(‘’cooling’’)
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Meeting of the CERN Research Board, November 25, 1976
ICE experiment:
“Initial Cooling
Experiment”
Recommendations:
To carry out an experiment on the cooling of protons;
To undertake a feasibility study of the construction of a system
of cooling and transfer rings to enable the injection of an intense
antiproton beam into the SPS.
Meeting of the CERN Research Board, May 25, 1978
Results from the ICE experiment (reported by S. van der Meer):
successful cooling achieved using the stochastic method
Recommend that CERN should go ahead with p p beams in the SPS;
Concern that the inclusion of a second intersection region may not be possible
due to budgetary limitations.
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Meanwhile, two proposals for p p collider experiments
had been proposed to the SPS Experiments Committee
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UA2 detector 1981 – 1985
Central region : track detector (“vertex detector”);
“preshower” detector;
electromagnetic and hadronic calorimeters:
each calorimeter cell: Dq = 10° , Df = 15°;no magnetic field.
20° – 40° regions : toroidal magnetic field (2 x 12 coils);track and preshower detectors;electromagnetic calorimetry (24X0 + 6X0):each calorimeter cell: Dq = 3.5° , Df = 15°;
No muon detectors
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1981 – 82 configuration:
4 azimuthal sectors of the central calorimeter replaced by
an open magnetic spectrometer at 90° to the beam line
to study charged particle and p0 production at large angles
End of the 1982 run:
Removal of the magnetic spectrometer;
Full azimuthal coverage of the central calorimeter.
B
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Meeting of the Research Board, June 29, 1978
Approval of Proposal P92, becoming the UA1 experiment
(UA1: Underground Area 1)
Proposal P93 is considered as a good experiment, which should
be considered for approval if budgetary conditions permit.
Meeting of the Research Board, December 14, 1978
Resources for a second intersection region are finally found
by the CERN Management.
Approval of Proposal P93, becoming the UA2 experiment
(following a “shoot-out” with another experimental proposal
which had been submitted two months earlier).
At the end of 1978, the UA2 Collaboration consisted of 6 Institutes:
Bern, CERN, Copenhagen (NBI), Orsay, Pavia, Saclay
~60 phycisists
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Main Task of the LAL-Orsay group:
construction of the central tracker
(“vertex detector”):
Four Multiwire Proportional Chambers (MWPC)
with cathode strip readout;
A hodoscope of 24 scintillator strips;
Two drift chambers with 24 azimuthal cells,
6 wires / cell, two-dimensional information
by charge division;
A Tungsten converter 1.5 X0 thick, followed
by a fifth MWPC.
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The UA2 vertex detector during installation (1981)
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The UA2 detector
before data – taking in 1983
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Sketch of the CERN accelerators in the early 1980s
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CERN ANTIPROTON – PROTON COLLIDER (SppS) OPERATION
1981 - 90
1986: Upgrade of the antiproton source by the addition of
an Antiproton Collector ring (ACOL) around the Antiproton
Accumulator (AA) Luminosity increase by a factor ~5
1991: end of SppS operation (no longer competitive with Fermilab
Tevatron pp collider at 1.8 TeV total energy)
W discovery
Z discovery
Upgraded detector
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First UA2 data-taking run (Autumn 1981):Evidence for hadronic jet production at high transverse momentum(the highlight at the International Conference on High-Energy Physics, Paris,1982)
Distribution of the
total transverse energy
(sum over the central
calorimeter cells)
SET (GeV)
Reconstruct cluster transverse energies:
sum over adjacent cells with E > 0.4 GeV
.....)3()2()1( TTT EEE
)(n
TE : transverse energy of nth cluster
T
n
Tn
E
Eh
)(
Define
Events with SET > 100 GeV
consist mainly of two high ET clusters
SET (GeV)
fra
ctio
n
h1
h1+h2
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Transverse energy distribution
in the (q,f) plane
for four typical events
with SET > 100 GeV
Two-jet event
projection in a plane
perpendicular to the beam line
Events with SET > 100 GeV:
azimuthal separation DF12
between the two leading clusters
00° 90° 180°
DF12
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Search for W e n
Methods for electron identification at high pT in absence of magnetic field
( with important contributions from Daniel ):
Calorimeter cluster consistent with single particle electromagnetic shower;
Isolated track matching the calorimeter cluster. Track ionization consistent
with 1 MIP (to reject photon conversions);
Track should match in space a charged cluster in the preshower detector
corresponding to ionization > 4 MIP.
Hadronic leakage
Energy in e.m. calorimeter
Pulse heights measured in preshower
1.5 X0 tungsten cylinder
Isolated track matching calorimeter cluster
A dangerous background:
isolated track close in space
to a high pT p0
(‘’overlap’’ background)
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The search for W e n events in the 1982 data sample was based
on two parallel approaches:
Event selection by computer programs using electron identification
algorithms;
Visual event scanning on a loosely selected event sample using a
three-dimensional event display (Megatek) to validate and refine
the selection algorithms.
Daniel was one of the leading physicists in this effort, spending days and
nights at the Megatek display to understand the response of the central
tracking and preshower detector.
By the end of 1982 we had a convincing signal, which was presented
first at 3rd Topical Workshop on Proton-Antiproton Collider Physics in
Rome, January 12-14, 1983 (without claiming a discovery), and then
at a CERN seminar on January 21, 1983 (one day after the announcement
by UA1).
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UA2 result from the analysis of the 1982 data
Six events containing an electron with pT 15 GeV
missing pT
electron pT
electron pT(GeV)
A paper was submitted to Phys. Lett. B on February 15, 1983
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Photos from 1983
Winter meeting,
Moriond 1983
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1983 collider run:
Detection of Z e+ e− decay
One Z e+ + e- candidate event was already present in the1982 data
It was presented at the 3rd “Topical Workshop on proton-antiproton
collider physics”, Rome, 12 – 14 janvier 1983:
“In the process of searching for electron pairs having a mass in excess
of 40 GeV, 27 events were retained for detailed inspection, none of which
could be considered as a legitimate e+e- candidate.
The event having M12 = 86 GeV has a good electron candidate in the central
calorimeter but its partner in the forward detector does not behave as a
single electron.”
27 events selected by calorimetric criteria
The only event with one identified electron
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Details of the ‘Rome’ event
Electron track in the central region
Response of thepreshower detectorto the other track
in the forward region(most likely a genuine electron hitting one of the toroidal coils
near its surface)
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Track identified as an isolated electron
pointing to both energy clusters
Two energy clusters with pT 25 GeV
in electromagnetic calorimeters;
energy leakage in hadronic calorimeters
consistent with electrons
A track identified as an isolated electron
pointing to at least one of the two clusters
24 events
8 events
mZ = 91.9 ± 1.3 ± 1.4 GeV(stat) (syst)
Search for Z e+ e− decay in the 1982 – 83 data
(with Daniel’s crucial contributions to electron identification)
The 8 final events include the ‘Rome’ event
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A paper was submitted to Physics Letters B in August 1983
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One of the 8 events is a Z e+e– g decaywith a hard photon (24 GeV) well separated
from the nearer electron.
Estimated probability from radiative corrections:
~ 1/200 Z e+e – (g) decays.
Nevertheless, several theoretical papers
were published interpreting this event in terms
of new physics beyond the Standard Model.
At the end of UA2 (1990), the final Z e+e–
decay sample consisted of ~250 events
with no other e+e– g event with non-collinear,
hard photons.
BEWARE OF STATISTICAL FLUCTUATIONS !
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In 1984 three more groups joined the UA2 collaboration:
Heidelberg, Perugia, Pisa
UA2 collaboration meeting in Heidelberg
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UA2 W e n and Z e+ e– event samples at the end of 1985
(Integrated luminosity: 142 nb–1 at 546 GeV; 768 nb–1 at 630 GeV)
mW = 80.2 ± 0.6 ± 0.5 ± 1.3 GeV
mZ = 91.5 ±1.2 ± 1.7 GeV
UA2 also measured:
W e n charge asymmetry in the forward directions
expected from V – A ;
W, Z production cross-sections and pT distributions.
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Two-jet invariant mass distribution
First evidence for W and Z decay to q q pairs 2 hadronic jets(UA2 Collaboration, Phys.Lett.B 186 (1987) 452
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Daniel’s contributions to the first phase of the UA2 experiment:
W and Z studies;
Search for exotic processesExamples:
Providing help and guuidance to Ph.D. students
(co-director of Lydia Fayard’s Ph. D. thesis)
Invited talk at the 5th Int. Conference on Physics in Collision, July 1985:
« Review of W and Z physics at the CERN p p Collider »
• Search for excited electrons: W e* n e g n ;
• Search for SuperSymmetric particles: 𝑍 → ෪𝑒+ ෦𝑒− → 𝑒+ 𝑒− 𝛾 𝛾 ;
𝑍 → ෪𝑊+ ෪𝑊− → 𝑒+ 𝑒− ǁ𝜈 ǁ𝜈 .
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… and Daniel became the father of a boy:
In 1987 Daniel was awarded the Jean Thibaud prize
from the Lyon Science Academy.
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1987 – 90: Running with an upgraded detector (UA2’)
and higher collider luminosity
A hint for a top quark with mass 30 – 50 GeV had been reported by UA1 in 1984
……….
However, more data from the 1984 – 85 runs had weakened this conclusion.
Search for physics beyond the Standard Model
Example: SUSY particles, expected to produce hadronic events with large pTmiss .
Main physics goals:
Search for the top quark:
At a total collision energy of 630 GeV, the top quark production rate is measurable
only if the decays W+ t b and W
– t b are energetically possible: Mtop < 70 GeV.
The top quark can then be detected by observing the decays t b e+ n , t b e– n
( lower electron pT and pTmiss than for W e n events + 2 jets from b and b decays).
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Measurement of the missing transverse momentum
UA1 – UA2 comparison of pTmiss distributions in events containing pT > 15 GeV/c electrons
(shown by Daniel at his 1985 review talk «Review of W and Z physics at the CERN p p collider»
Before the analysis of the first p p collider data (1981 – 82), the importance of measuring
the missing transverse momentum (pTmiss) had not been fully acknowledged.
The lack of full calorimeter coverage in the UA2 detector could introduce unknown
systematic errors in the pTmiss measurement.
The effect of the incomplete UA2 calorimeter coverage is evident
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UA2’ detector 1987 - 90
electromagnetic and hadronic calorimetry over ~4p
new tracking detectors
no magnetic field
no muon detector
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UA2’ tracking detector
The UA2’ collaboration: Bern, Cambridge, CERN, Dortmund, Heidelberg, Melbourne, Milano,
Orsay (LAL), Pavia, Perugia, Pisa, Saclay (CEN)
( ~120 physicists in total)
Si : two cylindrical surfaces of Si pads
to measure dE/dx;
JVD: cylindrical drift chamber;
TRD: two modules of Transition Radiation Detectors;
SFD: Scintillation Fiber Detectors (6 stereo-triplets
+ 2 stereo-triplets behind a 1.5 X0 Pb cylinder)
ECPT: Proportional tubes (including a preshower)
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Main Task of the LAL-Orsay group:
design, construction and setting up of the two TRD modules
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UA2’ detector before closing the two End-Caps
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Two photos taken on the occasion of the first transfer of the UA2’ detector
to the beam area
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pTmiss distribution in the UA2’ detector
Events containing an electron
with pT > 15 GeV/c
Events containg an electron
with pT < 11 GeV/c (mostly
background)
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UA2’ found no evidence for W t b decay
Lower limit to the top mass mtop > 71 GeV (90% C.L.)
UA2’ found no evidence for new physics beyond the Standard Model
(e.g., SUSY particles, leptoquarks, …)
UA2’ improved on several measurements of Standard Model processes
An example: single photon production at high pT
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e n transverse mass distribution
2065 W e n events with the electronin the central calorimeter
Best fit: GeV 22.084.80 Wm
0019.00036.08813.0 Z
W
m
m
Two samples of Z e+ e- events :
Both electrons in central calorimeter ( 95 events)
Only one electron in central calorimeter (156 events)
Fit to the two distributions:
GeV 28.074.91 Zm
The most interesting UA2’ measurement: the mass ratio (mass ratio has no uncertainty from calorimeter calibration)
mW
mZ
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GeV 17.033.035.80 Wm
1991: Use first precise measurement of mZ from LEP experiments:
mZ = 91.175 ± 0.021 GeV
to obtain a precise determination of mW :
bounds on the mass of the top quark:
GeV 160 50
60
+
-topm
(five years before the top quarkdiscovery at Fermilab)
Because of eletroweak radiative corrections, mW depends on mtop (Veltman 1977)2
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Daniel gave invaluable contributions to the UA2’ experiment:
He took part in the design, construction and setting-up of
the two TRD modules of the central tracker;
At the data analysis stage, he had a leading role in the
study of events involving electron identification
(search for W t b, W and Z properties, …)
Daniel was the Ph.D thesis supervisor of Damir Buskulič and also
provided guidance to Guillaume Unal for his Ph.D. thesis on the
W to Z mass ratio.
In 1990 Daniel was invited to give a summary talk on W and Z
mass mesurements at hadron colliders at the Neutrino ‘90 conference
(this talk included W and Z results from the Fermilab Tevatron p p collider)
Also in 1990, Daniel joined CERN as a research physicist.
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Additional personal comments
Daniel is a physicist with competences in both detector technologies
and data analysis.
He has initiative and critical sense.
He obviously enjoys doing physics. His love for physics is contagious.
He is an excellent teacher. He provided guidance to many newcomers
in UA2 and UA2’.
He has a nice personality and goes along well with his collaborators.
It was for me a real pleasure to work with him.
He speaks fluently at least six languages: English, French, German,
Greek, Italian, Russian.
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Contribution list
………………….
Daniel during his presentation
at the event of November 22, 2002
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Dear Daniel,
Many thanks for all your contributions to physics and
best wishes for many more enjoyable and productive years.