Physics Activities at CAPP , Korea Yannis Semertzidis CAPP /IBS at KAIST
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Transcript of + - The proton EDM experiment in a purely Electric field storage ring Yannis K. Semertzidis, BNL...
![Page 1: + - The proton EDM experiment in a purely Electric field storage ring Yannis K. Semertzidis, BNL Motivation of “Magic” pEDM with Sensitivity: 10 -29 e.](https://reader035.fdocuments.net/reader035/viewer/2022081504/5697bff91a28abf838cbf8af/html5/thumbnails/1.jpg)
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The proton EDM experimentin a purely Electric field storage ring
Yannis K. Semertzidis, BNL
•Motivation of “Magic” pEDM
with Sensitivity: 10-29 ecm
•The need for the highest possible E-field, goal: ~17 MV/m for 2 cm plate separation
Breakdown Physics WorkshopCLIC/CERN, 6&7 May 2010
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Matter-Antimatter Asymmetry
• 4% of our universe is made out of matter. Apparently this is too much according to SM.
• The CP-violation observed within the SM can only account for ~10-100 galaxies of the ~350 billion visible ones.
• A new, much larger, source of CP-violation is needed; probably due to New Physics.
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Electric Dipole Moments: P and T-violating when // to spind
, 2
2
qg s
m
qd s
mc
T-violation (under CPT conservation) implies CP-violation. The observed CP-violation in SM creates a negligible EDM.
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Physics reach of magic pEDM (Marciano)
The proton EDM at 10-29e∙cm has a reach of >300TeV or, if new physics exists at the LHC scale, <10-7 rad CP-violating phase; an unprecedented sensitivity level.
The deuteron EDM sensitivity is similar.
• Sensitivity to SUSY-type new Physics:
• Sensitivity to new contact interaction: 3000 TeV
10 13 Currently: 10 , Sensitivity with pEDM: 0.3 10
2
24
SUSY
0.1 TeV10 e cm sinpEDM
M
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Yannis Semertzidis, BNL
The Electric Dipole Moment precesses in an Electric field
dsd E
dt
+
-
d The EDM vector d is along the particle spin direction
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A charged particle between Electric Field plates would be lost right away…
- +E
+
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Yannis Semertzidis, BNL
…but can be kept in a storage ring for a long time
E
E E
E
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Yannis Semertzidis, BNL
The sensitivity to EDM is optimum when the spin vector is kept aligned to the momentum vector
0a
Momentumvector
Spin vector
dsd E
dt
E
E E
E
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Yannis Semertzidis, BNL
The spin precession relative to momentum in the plane is kept near zero. A vert. spin precession vs. time is an indication of an EDM (d) signal.
0a
dsd E
dt
E
E E
E
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Freezing the horizontal spin precession
2
a
e ma E
m p
• The spin precession is zero at “magic” momentum (0.7 GeV/c for protons, 3.1GeV/c for muons,…)
2, with
2
m gp a
a
• The “magic” momentum concept was first used in the last muon g-2 experiment at CERN
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A possible “magic” proton ring lattice: ~240m circumference with ES-separators.
I.K.: Injection KickersP: PolarimetersRF: RF-systemS: SextupolesQ: QuadrupolesBPMs: ~70 Beam Position Monitors
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E-field plate module: The (26) FNAL Tevatron ES-separators would do
0.4 m
3 m
Beam position
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13
Large Scale Electrodes
Parameter Tevatron pbar-p Separators
BNL K-pi Separators
pEDM
Length 2.6m 4.5m 2.4m
Gap 5cm 10cm 2cm
Height 0.2m 0.4m 0.2m
Number 24 2 64
Max. HV 180KV 200KV 190KV
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Magic Proton EDM ring includes:
• Injection
• Bunch capture with RF
• Vertical to horizontal spin precession
• Slow extraction onto an internal target for polarization and spin direction monitoring
• Use feedback on RF from polarimeter to control the longitudinal spin component.
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extraction adding white noise to slowly increase the beam phase space
“defining aperture”polarimeter target
RL
RLH
UD
UDV
carries EDM signalsmallincreases slowly with time
carries in-plane precession signal
pEDM polarimeter principle: probing the proton spin components as a function of storage time
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The EDM signal: early to late change• Comparing the (left-right)/(left+right) counts vs.
time we monitor the vertical component of spin
(L-R)/(L+R) vs. Time [s]
M.C. data
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Main Systematic Error: particles have non-zero magnetic moments!
•For the nEDM experiments a co-magnetometer or SQUIDS are used to monitor the B-field
•For the magic proton ring we plan to use simultaneous clockwise (CW) & counter-clockwise (CCW) beam storage
dsB d E
dt
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Clock-wise (CW) & Counter-clock-wise (CCW) storage
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Certain (main) systematic errors easier to handle if CW & CCW is done at the same time (Coincident BeamS: CBS)
In a ring with Electric field bending it is possible to store protons CW & CCW at
the same time in the same place
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Proton Statistical Error (230MeV):
p : 103s Polarization Lifetime (Spin Coherence Time)A : 0.6 Left/right asymmetry observed by the polarimeterP : 0.8 Beam polarizationNc : 21010p/cycle Total number of stored particles per cycleTTot: 107s Total running time per yearf : 0.5% Useful event rate fraction (efficiency for EDM)ER : 17 MV/m Radial electric field strength (65% azim. cov.)
€
σ d =2h
ERPA Nc fτ pTtot
€
σ d =1.6 ×10−29e ⋅cm/year for uniform counting rate and
σ d =1.1×10−29e ⋅cm/year for variable counting rate
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E-field strength, recent progress
The field emission without and with high pressure water rinsing (HPR) for 0.5cm plate separation.
Recent developments in achieving high E-field strengths with HPR treatment (from Cornell ILC R&D)
Our goal: ~17MV/m for 2cm plate separation
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Recent Progress from LC/ERL R&D (~5mm gap tests) Cornell/JLab
After surface treatment
After conditioning
Original (no special surface treatment)
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How to Scale from 5mm Gap to 20mm? R&D at BNL to discriminate between models
0
5
10
15
20
25
30
5 10 15 20
Gap (mm)
E
FE
MP
Field Emission Heating model for New Methods
Macro-Particle Heating model for New Methods
E [M
V/m
]
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L. Cranberg, J. Appl. Phys. 23,518 (1952).
Measured E-field breakdown vs. plate distance(without new surface treatments)
The breakdown E-field vs. distance (d)follows the 1/√d rule
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D. Alpert et al., J. Vac. Sci. Technol. 1, 35 (1964).
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D. Alpert et al., J. Vac. Sci. Technol. 1, 35 (1964).
The breakdown E-field is independent of distance
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D. Alpert et al., J. Vac. Sci. Technol. 1, 35 (1964).
Attributed to edge effects (plate separationover the radius of curvature at the edge)
Attributed to field enhancement dueto asperities
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Conditioning method to be tested on two SS plates (~120cm2)
• High pressure water rinsing.
• Bring the two plates as close as possible (20-50μm). Eliminate high electron emission points from cathode by slowly raising the HV.
• Apply up to 200-300 MV/m.
• Adjust plate distance to 2 cm. Apply nominal voltage for 17 MV/m.
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Technically driven pEDM Timeline
0807 09 10 11 12 13 14 15 16 17
Spring 2008, Proposal to the BNL PAC Fall 2009 Conceptual Technical Review at BNLFall 2009 Conceptual Technical Review at BNL December 2009, the pEDM experiment was approved • 2010-2013 R&D phase; ring design
• Fall 2012, Finish R&D studies: a) Develop BPMs, 10 nm, 1 Hz BW resolution, <1pm syst.
b) spin/beam dynamics related systematic errors. c) Polarimeter detector development and prepare for testing
d) Finalize E-field strength to use, goal: ~17 MV/m e) Establish Spin Coherence Time, study systematic errors,
optimize lattice
• FY 2013, start ring construction (two years)
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Storage Ring EDM Experiments• The proton EDM at “magic” momentum (0.7
GeV/c) has been just approved at BNL after a successful conceptual technical review in 2009.
• We are now in the R&D period. Sensitivity goal: 10-29 ecm (>10 times more sensitive than the best planned nEDM exp.).
• The lab at COSY (Juelich/Germany) is discussing hosting the deuteron EDM experiment in a staged approach. Final sensitivity goal: 10-29 ecm.
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Summary
• We need to develop a reliable E-field system with E~17 MV/m for 2 cm plate separation.
• We will investigate various surface conditioning methods (HPR, burn-off high E-field points from cathode). Experts are welcome to contribute.
• At 10-29 e-cm the proton EDM experiment will have the best sensitivity for beyond the SM CP-violation.
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32
AGS Complex
Booster
AGS
g-2 experiment
Linac
TTBC-AD Admin
NSRL
pEDM @ 17 MV/m
100 m
pEDM
Rin
g30
.8m
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Proton EDM parameters during storage
1. Proton EDM with a statistical goal of 10-29
ecm within ~2×107s.
2. Proton momentum 0.7 GeV/c, kinetic energy: 232 MeV, β ~ 0.6, γ ~ 1.25.
3. 2x1010 particles/storage, (dp/p)rms=2.5×10-3 ; Emittance: 95%, un-normalized εh=3mm-mrad, εv=10mm-mrad
4. The beam is bunched with h=120, f=90 MHz
5. We will use resonant cavities and/or striplines (P. Cameron) for position monitoring (BPMs).
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Optimizing the counting rate• We can take most counts at the beginning and
the end of the storage time and some in between for spin direction monitoring.
Variable counting rateas a function of time [s]
Maximum rate: 4 × theaverage rate.
(L-R)/(L+R) vs. Time [s]
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pEDM lattice parameters
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Storage Ring EDMTechnical Review – 12/7/2009
Edward J. Stephenson, IUCF 14
Polarimeter Development
Polarimeter
Location of polarimeter in (half of) storage ring straight section
beam
Polarimeter:Note that thedetectors forthe counter-rotating beamshare the targetat the center ofthe quadrupole.
Injection system
RF solenoid used to precesspolarization of opposite bunchesinto the ring plane.
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Breakdown probability as a function of E-field (CERN-CLIC)
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E-field breakdown mechanism model
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CERN (CLIC) work results on various metals
A. Descoeudres et al., Phys. Rev. ST Accel. Beams 12, 032001 (2009).
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Samples for measurements
• CERN (CLIC), Test:
• Check different stainless steel metal surfaces
• Check for uniformity of highest E-field attained over the metal surface
• Check the effect of high pressure water rinsing
• University of Virginia, Test:
• Patch effect as a function of stainless steel type
• Effect of HPR on patch effect
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Summary
• Conditioning at very small plate separations to find out if gain (smoothing of surface) is permanent
• Need to send SS samples to CERN and UVA for evaluation.
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Is the polarimeter analyzing power good at Pmagic? YES!
Analyzing power can be further optimized
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Storage Ring EDMTechnical Review – 12/7/2009
Edward J. Stephenson, IUCF 15
Polarimeter Development
Polarimeter
(Half) Polarimeter in the ring:
cm
One target isshown. Wewant a targetavailable fromat least theleft, right, upand downdirections.
Quadrupoles hereare larger aperturefor clearance.
5° to 20°acceptance
Generic detector: (?) Multi-resistive plate chamber (?) Micro-megas (?) Gas electron multiplier (?) …other
Absorber to removelow analyzing powerparticles. (Detectorchoice can also givediscrimination.)
Equal rate readout pads
Rate = 800 /s/pad
In one store: 4105.1
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A possible magic proton ring lattice: ~240m circumference with ES-separators.
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Conditioning method to be tested• High pressure water rinsing.
• Use small surface area probe as anode near the cathode (20-50μm). Eliminate high electron emission points from cathode.
• Optimize the anode surface area for conditioning speed.
• Replace anode probe with anode plate at 2cm separation. Apply nominal voltage for 17 MV/m