milagro status report - october 1998
DESCRIPTION
Milagro Status Report - October 1998. Physics Goals and Status of Milagro. October 1998 The Milagro Project Physics Goals Overall Design Milagrisimo - Milagrito - Milagro Comparison of Milagro to other detectors Milagrito The Detector Operations Results Status - - PowerPoint PPT PresentationTRANSCRIPT
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Milagro Status Report - October 1998Milagro Status Report - October 1998
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October 1998
The Milagro ProjectPhysics GoalsOverall DesignMilagrisimo - Milagrito - MilagroComparison of Milagro to other detectors
MilagritoThe DetectorOperationsResults
Status - Milagro Installation ScheduleBudget History
Physics Goals and Status of Physics Goals and Status of MilagroMilagro
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The Milagro CollaborationThe Milagro CollaborationOctober 1998October 1998
M.L.Chen, and J.A. Goodman,* G. Sullivan, D. Evans
University of Maryland At College Park
A. Shoup, and G.B. Yodh,
S. Hugenberger, I. leonor
University of California, Irvine
D.G. Coyne, D.E. Dorfan, L.A. Kelley D.A. Williams S. Westerhoff
W. Benbow, J. McCullough, M. Morales, T. Yang
University of California, Santa Cruz
A.I. Mincer, and P. Nemethy, L. Fleysher, R. Fleysher
New York University
R.W. Ellsworth
George Mason University
D. Berley
National Science Foundation
G. Gisler, T. J. Haines, C.M. Hoffman*, R. Miller,
and C. Sinnis
Los Alamos National Laboratory
B. Shen, A. Smith , O.T. Tumer,
K. Wang, M. Wascko
University of California, Riverside
M. McConnell, J. Ryan, A. Falcone
University of New Hampshire
B. Dingus, J. McEnery, R. Atkins
University of Utah
*Spokesmen Students
NSF EP Supported
Groups
Doe & other
Supported
Groups
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High Energy Cosmic Ray DetectorsHigh Energy Cosmic Ray Detectors
10 9 10 11 10 10 10 1013 15 17 19
1 G eV 1 TeV 1 PeV 1 EeV
The Cosmic Ray Spectrum
Satellites
Fly’s Eye / HiRes
Air Cherenkov
Milagro
EAS Arrays
Solar Arrays
Akeno /Auger
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A Water Cherenkov DetectorSensitive over 100% of the areaSensitive to Photons and Electrons
A Low Threshold - Open Aperture DetectorThreshold < 300 GeV
Significant Area at 100 GeVLarge Duty CycleAcceptance ~ 1srAngular Resolution < 0.50 (better for large
showers)
MilagroMilagro
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MilagroMilagro
Built in an Existing 60x80x8m Pond450 Top layer 8” PMT’s on 3m grid273 Hadron/ layer PMT’s (facing up)
High Altitude Location - 8650’ Existing Lab Tech Area Support Facilities at the Site
Air Shower Layer
Hadron/Muon layer
2m
8" PMTs
Light-tight Cover
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Physics with MilagroPhysics with Milagro
First All Sky Survey of the Northern Sky Search for DC SignalsLook for New SourcesSearch for Bursts on Many Time Scales
Study the Signal from the CrabMilagro will observe the Crab with >5in a few
months (using the Whipple Flux)Milagro will study the spectrum & flux
Absolute flux normalization from ACT’s is important and needs to be confirmed
Data on the high energies is needed for acceleration models
Search for Gamma Ray BurstsEGRET has seen burst events up to ~20 GeV with
Aeff of ~400 cm2
Milagro at 100 GeV will have Aeff20 m2 (more than ~500 x EGRET)
Milagro’s acceptance grows like E2 up to 1 TeVMilagro operates continuously with a wide aperture -
It will be the best high energy GRB detector!Measuring a cutoff above a TeV would constrain
GRB models and distance to the source
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The CrabThe Crab
Energy (TeV)
Inte
gral
Flu
x (c
m-2 s
-1)
Whipple (a)Themistocle (b)ASGAT (c)HEGRA Cherenkov (d)Cangaroo (e)
MilagroSensitivity
Detections
Upper LimitsBaksanCASA-MIACYGNUSEAS-TOPHEGRA Scint.TibetUtah Cherenkov
FGHIJKLK
G
FL
I
I
I
J
H
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Physics with MilagroPhysics with Milagro
Study AGN’sMRK 501 has be seen by MilagritoEGRET has seen >30 AGN’s Milagro will search for variability in AGN’s at TeV
energies Sources have shown increases x ~100 All northern sources can be viewed every day
with Milagro Correlation with Radio Observations
HEGRA has events at >20 TeV from Mrk501The nature of the spectrum above a few TeV is
important in determining where / if absorption is occurring
Primordial Black HolesPBH’s will radiate energetic particles at the end of
their lifetime The spectrum of particles radiated will be depend
on physics model - SUSY etc.Milagro will be sensitive to the last few minutes of a
PBH explosionCygnus set limits on PBH that were 100x better than
any otherMilagro should do about 2-3 orders of magnitude
better
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Primordial Black HolesPrimordial Black Holes
PBH’s will radiate particles at the end of their life
The radiation will depend on the number of degrees of freedom
Milagro will be sensitive to particles produced in the last ~1000 seconds
Seconds Until End
Num
ber
of D
etec
ted
Eve
nts
Time
Background
SUSY
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Physics with MilagroPhysics with Milagro
Solar PhysicsMilagro will detect the shadow of the sun in a
few daysThe position and disappearance of the
shadow are a measure of the solar Bperp
Currently measurements are poorGeV Solar flares give muons in the bottom
layer 2500 m2 will allow us to measure solar
flare structure on a 1 sec time scale vs 10’s of minutes
Milagrito already has a probable detection of a CME event
Proposal to ATM from UNH (muon direction) Antimatter Search
There will be a second displaced shadow if there is a significant amount of antimatter
Composition StudiesWide Area Cherenkov Telescope Proposal
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MilagrisimoMilagrisimo
Milagrisimo was the first stage of Milagro30 PMTs were operated in the Milagro
Pond in winter of 1995-1996Single layer on the bottom of the Pond~1.5m of water above tubesDesign studies and analysis presented in
at Durban ICRC
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MilagritoMilagrito
Milagrito was the second stage of the Milagro detector
It was a large area water detector Area ~ 2/3 Milagro No Muon Layer
Milagrito data was used for: design studies and development
And it will be used for physics & theses Physics (MRK 501, GRB’s etc) Student Theses
M ilagrito Milagrito operated at >250Hz from
February 1997 to April 1998 (>85% livetime) More than 9 billion events - 9 Terabytes
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MilagritoMilagrito
Milagrito Trigger Rate
10
100
1000
10000
0 50 100 150 200PMTs in Coincidence
Tri
gg
er R
ate
(Hz)
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MilagritoMilagrito
One Month Coverage
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Milagrito ResultsMilagrito Results
Moon Shadow
Offset is approximately what is expected at our energies.
Antimatter shadow location
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Milagrito ResultsMilagrito Results
Mrk501
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Nov. 6 1997 Coronal Mass EjectionNov. 6 1997 Coronal Mass Ejection
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Milagro SiteMilagro Site
HDR SiteMilagro Site
Ops Building
Million Gallon Pond
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Milagro SiteMilagro Site
Counting House
Pond Utility Building (PUB)
Office Trailer
Testing Trailer
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Milagro ConstructionMilagro Construction
Cover Inflated with new webbing
Lightning protection system
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Late LightLate Light
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BafflesBaffles
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Milagro ConstructionMilagro Construction
4 Muon Boxes deployed to provide redundant ID
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Milagro ConstructionMilagro Construction
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MilagroMilagro
Milagro will have a trigger rate of ~2 kHzData will be processed in real timeWill perform online search for burstsTime and pulse height on each channel
The muons will provide substantial background reduction for showers above a few TeV
<Nmu>detected = 1 at 1 TeVAt high energies Milagro will have low
background Muon/Hadron layer may provide other
methods of background rejectionA real gamma signal can be studied from
sources like the Crab to develop better rejection algorithms
Water tanks are needed to surround the pond to get core position
Core position is needed for angular resolution and energy determination
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MilagroMilagro
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MilagroMilagro
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MilagroMilagro
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Event ReconstructionEvent Reconstruction
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Milagrito Milagrito
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Why We Need OutriggersWhy We Need Outriggers
What are outriggers?An array of water tanks outside the pondWe have built & operated a prototypeOutriggers were part of the original
Milagro proposal Outriggers are essential for locating core
positionNeed counters outside the pond to tell if
cores are inside or outside Energy Determination needs core position
Need core to determine shower size and lateral distribution - This is vital for AGNs and GRBs
Angular ResolutionCurvature correction needs core position
Proton/Gamma DiscriminationProton showers trigger further from the
pondGammas trigger more often on the pond
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Major Responsibilities on MilagroMajor Responsibilities on Milagro
Milagro is a strong collaboration of University Groups and Los Alamos
A project supported by both NSF & DoEAll groups share responsibility for operating the
detector Irvine
PMTs - testing, encapsulation… Los Alamos
OperationsSite
Santa CruzElectronicsCover Inflation systemLightning Protection
MarylandDAQ
New HampshireSolar Outriggers
NYUPMT structure and deployment
Utah WACT
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1994 Funding begins toward a $2.6M Project (80%NSF 20%DoE) 1995 Site Preparation - New liner & cover - PUB - Counting House
- PMT structure installed 1995 -1996 Milagrisimo run - 38 tubes on pond bottom 1996-1997 Milagrito installed - Data taking begins Feb 1997 1997 Lightning protection system 1998 Milagro tubes installed, modifications to electronics, cover,
water system completed (based on Milagrito experience) Winter 1998-1999 Running to begin
$0
$500
$1,000
$1,500
$2,000
$2,500
1994 1995 1996 1997 1998 1999
FY
Tota
l Fu
nd
s in
Th
ou
san
ds
NSF
DoE
Site
Work Milagrisimo Milagrito Milagro
Timeline & Funding ProfileTimeline & Funding Profile
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SummarySummary
Milagro is an important new detector that will produce significant new physics results
GRB, AGNs, Solar Physics, PBH, Antimatter, Composition
Milagro has a strong collaborationNSF Groups, DoE Groups & Los Alamos
Milagro has been built in stagesWe have learned how to build and operate
the detector through prototypes The project has been on time and on budget
We built it for the cost proposed in 1991We built as fast as the cash flow allowedWe have met all the technical challenges
Outriggers are essential to finish to MilagroCore position is central to Milagro’s goalsProposal this winter for outriggers
Solar Physics is an added bonusSolar Proposal to ATM
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Primordial Black HolesPrimordial Black Holes
Why might they exist?Density Fluctuations in the early universe-
Some regions of space could become overdense and collapse
What did COBE tell us?COBE studied density fluctuations on a huge
scale (1055gm) and found
Other evidenceStandard inflation says is scale invariant If Standard inflation and COBE are correct -
There should be virtually no PBH’sDiffuse 100 MeV ’s set a limit on the number
of PBH’s PBH<10-8 If PBH’s do exist - We might see them when they
evaporate T ~ 1/MThey would radiate all species of particles at
the end of their lifetime Initial mass of ~1015 gm would be going off
now We should look at a scale 40 orders below
COBE