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MuCapHigh-Precision Measurement of
Muon Capture on the Proton
BVR35Progress report
presented by
Claude Petitjean, PSI
12 Febuary 2004
http://www.npl.uiuc.edu/exp/mucapture/
m
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MuCap Experiment
• experimental goal
• principle of measurement
• apparatus
• time projection chamber (TPC)
• data from run in fall 2003
• some results
• milestones reached in 2003
• upgrades for run in fall 2004
• Beam request 2004
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MuCap collaborationV.A. Andreev, A.A. Fetisov, V.A. Ganzha, V.I. Jatsoura, A.G. Krivshich, E.M. Maev, O.E. Maev,
G.E. Petrov, G.N. Schapkin, G.G. Semenchuk, M. Soroka, A.A. Vorobyov Petersburg Nuclear Physics Institute (PNPI), Gatchina 188350, Russia
P.U. Dick, A. Dijksman, J. Egger, D. Fahrni, M. Hildebrandt, A. Hofer, L. Meier, C. Petitjean, R. Schmidt
Paul Scherrer Institute, PSI, CH-5232 Villigen, Switzerland
T.I. Banks, T.A. Case, K.M. Crowe, S.J. Freedman, F.E. Gray, B. Lauss University of California Berkeley, UCB and LBNL, Berkeley, CA 94720, USA
K.D. Chitwood, S.M. Clayton, P.T. Debevec, D. W. Hertzog, P. Kammel, B. Kiburg,R. McNabb, F. Mulhauser, C. J. G. Onderwater, C. Ozben, C.C. Polly, A. Sharp, D. Webber
University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA
L. Bonnet, J. Deutsch, J. Govaerts, D. Michotte, R. Prieels Université Catholique de Louvain, B-1348 Louvain-La-Neuve, Belgium
R. M. Carey. J. PaleyBoston University, Boston, MA 02215, USA
T. Gorringe, M. Ojha, P. Zolnierzcuk University of Kentucky, Lexington, KY 40506, USA
F.J. Hartmann Technische Universität München, D-85747 Garching, Germany
Cap
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Experimental goal
measure the rate Λs of muon capture on the proton
p n
to 1% precision. Muon capture is a semileptonic weak interaction process,
and occurs predominantly from the hyperfine singlet atomic bound state.
a 1% measurement of Λs determines gp – the “weak nucleonic charged current induced pseudoscalar form factor” – to < 7% precision.
The QCD prediction (Heavy Baryon Chiral Pert. Theory) is ~2% precise.
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problem of previous experiments
TS
pp
pp
pp
ortho
para
F=0 F=1
J=1
J=0
OP
n+
n+
n+
interpretation of rate S
due to formation of ppμ
molecules in lq hydrogen
and badly known rate OP
of ortho-para transitions
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Muon Capture and gP
20 40 60 80 100 120
2.5
5
7.5
10
12.5
15
17.5
20
ChPT
OP (ms-1)
g P
RMC
Cap proposed
Saclay exp theory
OMC Saclay
update from Gorringe & Fearing
interpretation of gP vs OP
---------o---------New TRIUMF exp
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Experimental Technique“Lifetime” Method
For μ–, muon capture competes with muon decay:
(99.85%)
( ) (0.15%)
ee
p n
This rate decreases the observed μ– lifetime from the vacuum lifetime, which we measure separately with μ+ :
(100%)ee
Thus we need 10 ppm measurements of the μ+/- lifetimes or a statistics of at least 1010 for both μ-decays
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Experimental Technique“Lifetime” or “Disappearance” Method
Since our experiment can only observe e+ and e– decay products, muon capture produces a small downward deflection of the μ– lifetime curve from the μ+ “vacuum” lifetime curve :
The capture rate is easily calculated from the measured lifetimes:
1 1
( )' ( )'s
log(counts)
time
μ+
μ –
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Technical tasks of MuCap experiment
• ultra-clean 10-bar hydrogen gas target 0.01 ppm Z>1 impurities• deuterium depleted hydrogen („protium“) < 1 ppm deuterium• 100% stop identification no wall stops TPC• clean electron identification & tracking 2 cylindrical wire chambers• unique μ e decay assignment μ-stop – e-vertex matching• high data rate 30 kHz μ stops• high statistics > 1010 events for μ+ and μ- • μSR under control for μ+ 50-100 Gauss magnetic field
tasks goals to be reached
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Experimental Setup – Apparatus
μSC μPC1 μPC2 TPC
ePC2
ePC1
eSC (Hodoscope)
μ beam
MuonDetectors
ElectronDetectors
• e-detectors cover 75% of 4π
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assembly/tests: March-Aug 2003 data-taking: Sept-Oct 2003
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Ucathodes = 5-6 kV
E = 2 kV/cm - vdrift = 0.5 cm/μssensitive volume (12 x 15 x 30) cm3
TPC design drawing with glass frames and ceramic structure
bakeable to 130 C
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Online display of μ beam, μ stops in TPC and e in ePC1
ePC1/eSC(phi,z)
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event display of muon stops & electrons
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event display of μ stop + impurity capture
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development of impurities during the 2 good data weeks
full scale 1 ppm
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summed decay time spectra showing pile-up suppression
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μ – decay time spectra of 1 week with clean protium filling
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MuCap 2003: exponential fits to each eSC counter pair
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MuCap 2003: μSR enhanced fit of μ+ decay time spectra
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milestones 2003
• protium production with < 0.5 ppm deuterium• ultra-clean protium gas filling (< 0.1 ppm impurities) – after
installation of a new Palladium filter• new [email protected] kV stable operation (perfect μ stop detector!)• full e detector consisting of ePC1 and eSC• new frontend electronics for ePC1• new compressor electronics for deadtime free ePC1 data collection• new DAQ running with 4 MB/s data rate (80% duty cycle)• new μSR magnet with ~50 Gauss field• new slow control system• full electronics for TPC, wire chambers and plastic counters• collimated muon beam injection system• analysis software in mature development
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upgrades for 2004
• protium: maintain < 0.5 ppm deuterium & < 0.1 ppm Z>1 impurities• new gas circulation, cleaning & diagnostics (Gatchina)• e-detector: include new ePC2 ( vertex tracking)• tune TPC to 5.5 kV ( online control of μd diffusion)• new 0.5 mm Beryllium window ( increase good μ stops x 2)• μ-detectors: new outside μPC1&2 ( reduce μ-absorption/range-tails)• μ-beam: new tune in πE3 area ( < 3% momentum spread)• new spare TPC from Gatchina ( >6 kV to see e tracks)• upgrade DAQ for larger data flow ( ~100% duty cycle)• upgrade μSR magnet with Alu coils ( reduce scattering of e)• new online data analysis
goal for 2004: collect a significant part of 1010
pileup-protected good μ-decays for μ+ and μ-
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protium gas circulation and purifying system (Gatchina)
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MCstudy of μ stop distributions for various beam windows
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MuCap experiment: time plans of upgrades for 2004 run
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MuCap experiment: beam request for 2004
In 2004 we hope to approach closely the goal formulated in the proposal:
a measurement of the μp singlet capture rate to ± 1% accuracy
To accomplish this goal, we need area πE3 for the following activities:
- setup of beamline with el.stat. separator, assemble full apparatus and electronics, test all components in the beam: 2 weeks- tune new 35 MeV/c muon beam: 1 week- test & optimize complete detector with beam: 1 week- data production towards 1010 good μ- & μ+ decays: 2 x 2.5 weeks- contingency for beam losses or other failures 1 week
we request 10 weeks in area πE3 (preferably in Oct-Dec 2004, at the end of the 2004 production cycle)