coupp bubble chamber dark matter search
TRANSCRIPT
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1 December 3, 2010
COUPP Bubble Chamber Dark Matter Search
Michael B. Crisler, FERMILAB
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December 3, 2010 Michael B. Crisler,
FERMILAB
University of Chicago
Juan Collar (PI, spokesperson), C. Eric Dahl, Drew Fustin, Alan Robinson, Matthew Szydagis
Indiana University South Bend
Ed Behnke, Joshua Behnke, Austin Conner, J. Henry Hennefeld, Ilan Levine (PI), Andrea Palenchar, Tim Raymond, Tina Shepherd, Brendan Sweeney
Fermilab
Steve Brice, Dan Broemmelsiek, Peter Cooper, Mike Crisler, Jeter Hall, Martin Hu, Hugh Lippincott, Erik Ramberg, Andrew Sonnenschein
COUPP Collaboration
2
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3 December 3, 2010
COUPP 4kg T945-A2
Ran Aug 19 – Dec 18 2009 in MINOS Near Detector Hall 300 mwe underground
Over 300 kg-days unattended operation at 20 keV threshold
Michael B. Crisler, FERMILAB
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4 December 3, 2010
COUPP 4kg T945-A2 goals:
Test Synthetic Quartz Eliminate wall events
Improved Fluid Handling Reduce bulk alpha rate
New veto/shielding design Improved DAQ/Controls Added goal:
Look for acoustic alpha discrimination reported by PICASSO*
Michael B. Crisler, FERMILAB
*PICASSO (Aubin et al., arXiv:0807.1536)
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5 December 3, 2010
Review Superheated CF3I
target
Particle interactions nucleate bubbles
Cameras capture bubbles
Chamber recompresses after each event
Spin-dep
Spin-indep
Water (buffer)
Propylene Glycol (hydraulic fluid)
CF3I (target)
to piston / pump
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6 December 3, 2010
Review Superheated CF3I
target
Particle interactions nucleate bubbles
Cameras capture bubbles
Chamber recompresses after each event
Spin-dep
Spin-indep
Water (buffer)
Propylene Glycol (hydraulic fluid)
CF3I (target)
First expansion 10 minutes with no bubble…
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7 December 3, 2010
Review Superheated CF3I
target
Particle interactions nucleate bubbles
Cameras capture bubbles
Chamber recompresses after each event
Spin-dep
Spin-indep
Water (buffer)
Propylene Glycol (hydraulic fluid)
CF3I (target)
Michael B. Crisler, FERMILAB
Less than a minute with a neutron source…
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8 December 3, 2010
“Neutron” “Alpha”
Acoustic Signatures
Michael B. Crisler, FERMILAB
(Neutron source on…) (Neutron source off…)
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Candidate Events 28.1 kg-days Taking the 3
unvetoed events as alphas
Alpha rejection >80% at 90% confidence level
Consistent with >99% alpha rejection
December 3, 2010 9 Michael B. Crisler,
FERMILAB
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Michael B. Crisler, FERMILAB 10 December 3, 2010
Improved Limits on Spin-Dependent WIMP-Proton Interactions from a Two Liter CF3I Bubble Chamber http://arxiv.org/abs/1008.3518v1, accepted for PRL
This result limited by residual cosmic background in NUMI
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December 3, 2010 Michael B. Crisler,
FERMILAB 11
The COUPP 4-kg experiment has been reassembled in the new Ladder Lab area at SNOLAB (6800’)
4-kg Inner Vessel awaiting installation at SNOLAB
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COUPP 4-kg SNOLAB Shielding
20 inch thick boxes made with 1” thick HDPE Filled with SNOLAB high purity water
December 3, 2010 Michael B. Crisler,
FERMILAB
Solid Poly
Water Boxes
Seismic Damping
Completed November 5th
12
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4-kg Physics Run at SNOLAB 4.048 kg CF3I
distilled on September 2nd
First bubble on the next day
>75 kg-days accumulated to date
December 3, 2010 Michael B. Crisler,
FERMILAB 13
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COUPP-60 Commissioning Ran from July 28 to August 30 in MINOS Near Detector Hall
Goal: Test fully operating detector before moving to Snolab Stability of mechanical systems, DAQ, photography Backgrounds due to internal radioactivity
Analysis in progress, rates appear to be low. Acoustic alpha/ nuclear recoil discrimination
Run ended Aug. 30, 2010 due to a combination of problems that will be discussed in following slides.
Bottom line: some of the problems are quite serious– significant work needed before move to SNOLAB.
December 3, 2010 14 Michael B. Crisler, FERMILAB
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Uneven lighting, hard shadows
5 bubbles (neutron multiple scatter)
6th bubble- harder to see due to uneven lighting
Dark region at bottom, poor photography, poor triggering
Shadows- a challenge for image analysis software
December 3, 2010 15 Michael B. Crisler, FERMILAB
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Excess Bubbling at Water/ CF3I Interface • Problem has existed at some level in all COUPP chambers, but COUPP-60 is the worst. • Cause is unknown. • Ideas: Dissolved gas in water or particulate floating on interface. • Consequence is reduction in live time fraction due to 30-60 second compression cycle after each detected bubble. Live fraction reduced to 25% at 40 degrees C.
CF3I/ water interface
December 3, 2010 16 Michael B. Crisler, FERMILAB
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Darkening of Video Images • Progressive from beginning of run. • Eventually made data taking impossible • Cause was a mystery until we viewed the chamber with white light…
Aver
age
Pix
el In
tens
ity
December 3, 2010 17 Michael B. Crisler, FERMILAB
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CF3I Is Decomposing and Changing Color
Photo by Raidar Hahn
Iodine dissolved in water (orange)
Iodine dissolved in CF3I (purple)
“ring around the collar” near water/ CF3I interface. Solid material? Bubbles?
Could be cause of surface boiling?
Color change indicates the presence of free iodine (I2) dissolved in chamber liquids.
December 3, 2010 18 Michael B. Crisler, FERMILAB
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Next Steps for COUPP-60 PPD has formed a COUPP-60 Task Force to help us call on appropriate resources.
Working groups: Optics/Illumination, Chemistry, Mechanical/Operations. Core group from collaboration will be supplemented as necessary by outside experts.
Key issue is access to chemistry expertise, which is in short supply at Fermilab. Collaborators at Indiana University are analyzing samples by GC/MS. Argonne has expertise in Chemical Sciences and Engineering Division which we have started to tap.
We are recovering samples of gases and fluids from bubble chamber. Analysis of decomposition products may suggest mechanism.
Will attempt to reproduce the problem in a test tube. If this is a light exposure problem, we should know soon.
In parallel, we can make progress on better understood optics and mechanical issues.
December 3, 2010 19 Michael B. Crisler, FERMILAB