F ERMILAB T EST B EAM F ACILITY Aria Soha March 22, 2011.

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Presentation transcript:

F ERMILAB T EST B EAM F ACILITY Aria Soha March 22, 2011

The Fermilab Test Beam Facility World Class Facility The only operating U.S. HEP Test Beam Detector R&D focus Since 2005:  32 experiments  464 collaborators  108 institutions  24 countries *Data for 2010 is still being compiled 2http://www-ppd.fnal.gov/FTBF/

Location Meson Detector Building – West Fermi National Accelerator Laboratory 3

Beam Delivery Tevatron Neutrino Line MTest MCenter Linac Booster 8GeV Line Main Injector P1 Line P2 Line P3 Line SY

Particle Composition of Beam Beam Energy (GeV) Rate at Entrance to Facility (per spill) Rate at Exit of Facility (per spill) % Pions, Muons % Electrons 16132,00095,00087%13% 889,00065,00055%45% 456,00031,00031%67% 268,00028,000<30%>70% 169,00021,000<30%>70% If beam were smoothly extracted, 100 kHz or less would imply 1 particle per MI rotation would occur. Beam extraction is not smooth resulting in up to 35% double occupancy per MI rotation 120 Gev Protons GeV Pions 0.5 – 32 GeV Electrons Broadband Muons 5

Operating Test Beam makes up 5% of Fermilab’s HEP program 6 sec event (4.2 sec spill) every 60 seconds for 12 hours a day Normal Operating Hours: 0400 – 1800 Stop for Tevatron Fill (2 hrs) Control room manned during beam hours 6http://www-ppd.fnal.gov/FTBF/

Facility Details Multiple Control Rooms Conference Room Climate-controlled areas for experiments Machine Shop Several Work Rooms Storage Rooms and Cabinets 7http://www-ppd.fnal.gov/FTBF/

Facility Details Remotely controlled Motion Tables Laser Alignment State-of-the-Art, web-based Cameras Helium Tubes Gas Delivery Signal and High Voltage cable patch panels 8http://www-ppd.fnal.gov/FTBF/

Facility Instrumentation 2 Cerenkov Detectors 2 Pixel Telescopes 4 MWPC Tracking System Time of Flight System Lead Glass Calorimeters Assorted Trigger scintillators 9

Accommodating Users In 2008, T-977 MINERvA experiment requested ~200 – 1000 pions/spill, with momentum as low as 200 MeV/c They requested Fermilab build another beamline… 10http://www-ppd.fnal.gov/FTBF/

Tertiary Beamline Target/ Collimator TOF 1 TOF 2 WC 1 WC 2 Spectrometer Magnets WC 3 WC 4 11http://www-ppd.fnal.gov/FTBF/

Tertiary Beam Details 60% pions, 40% protons, very few electrons, kaons, and deuterons. Plot of Fit Momentum vs. TOF; Shows: Separation of Species and Available Momenta 12

Tertiary Beam Details Rates: about 200 particles / 4 sec spill (~50 Hz) Momentum Resolution: dp = 3%  multiple scattering limited for this momentum range Bias:  MINERvA design goal for bias is < 2%.  So far only 5% demonstrated WC4 can be moved to achieve lower or higher momentum  design momentum is 200MeV minimum 13http://www-ppd.fnal.gov/FTBF/

Schedule Fermilab Accelerator shutdown scheduled for March 2012 through February 2013 (11 months) 14http://www-ppd.fnal.gov/FTBF/

Weekly Usage *Experiment Data Taking Includes Double Occupancy Facility Use includes Experiment Installation, Facility Tests, & Data Use, and is normalized to Beam Availability 15http://www-ppd.fnal.gov/FTBF/

Tevatron Neutrino Line MTest MCenter Linac Booster 8GeV Line Main Injector P1 Line P2 Line P3 Line SY120 Facility Expansion MCenter line start-up  Doubles the capacity of our facility for small users With the operation of the SeaQuest Experiment FTBF can expect  24 hours of beam time a day  Longer spill train, with same intensities 16http://www-ppd.fnal.gov/FTBF/ Proton Line

MCenter User Area This section of beam pipe has been modified to have flanges and a bellows, so as to make it easily removable. 17http://www-ppd.fnal.gov/FTBF/

Facility Overview 18http://www-ppd.fnal.gov/FTBF/

FTBF Summary Fermilab Test Beam Facility is an HEP Beam facility for world-wide Detector R&D Extensive facility infrastructure & instrumentation Flexible beam delivery  Protons, pions, muons, electrons, kaons  200 MeV – 120 GeV  1 – 300 kHz intensities 19http://www-ppd.fnal.gov/FTBF/

ADDITIONAL SLIDES Additional Slides 20http://www-ppd.fnal.gov/FTBF/

Meson Area Beamlines 21http://www-ppd.fnal.gov/FTBF/

Tertiary Beamline Proposal 1.16 GeV pion beam hits a copper target and steel collimator at the entrance to MT6.2 2.Particles emerge at a 16 o angle 3.TOF 1 (Scintillator) 4.Wire Chamber 1 5.Wire Chamber 2 6.Spectrometer magnets to straighten beam 7. 8.Wire Chamber 3 9.Wire Chamber 4 10.TOF 2 (Scintillator) 11.MINERvA detector 22http://www-ppd.fnal.gov/FTBF/

Beam Spot Size 23http://www-ppd.fnal.gov/FTBF/

Energy Resolution 24http://www-ppd.fnal.gov/FTBF/

Outreach 25http://www-ppd.fnal.gov/FTBF/

Grounding 26http://www-ppd.fnal.gov/FTBF/