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SLAC Fluorescence Measurement Test Run (T461). Kevin Reil. T461 – Collaboration. J. Belz 1 , Z. Cao 2 , P. Chen 3* , C. Field 3 , P. Huentemeyer 2 , W-Y. P. Hwang 4 , R. Iverson 3 , C.C.H. Jui 2 , T. Kamae 3 , G.-L. Lin 4 ,
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T461 – Collaboration J. Belz1, Z. Cao2, P. Chen3*, C. Field3, P. Huentemeyer2, W-Y. P. Hwang4, R. Iverson3, C.C.H. Jui2, T. Kamae3, G.-L. Lin4, E.C. Loh2, K. Martens2, J.N. Matthews2, W.R. Nelson3, J.S.T. Ng3, A. Odian3, K. Reil3, J.D. Smith2, P. Sokolsky2*, R.W. Springer2, S.B. Thomas2, G.B. Thomson5, D. Walz3 1University of Montana, Missoula, Montana 2University of Utah, Salt Lake City, Utah 3Stanford Linear Accelerator Center, Stanford University, CA 4Center for Cosmology and Particle Astrophysics (CosPA), Taiwan 5Rutgers University, Piscataway, New Jersey
The SLAC LINAC The SLAC Accelerator: 3 km long with a klystron approx every 13 m. Delivers up to 50 GeV of e- or e+. Beam Switchyard: T461 located in the FFTB
The FFTB A 28.5 GeV e- beam is delivered to the FFTB. At the final focus beam cross section is 1 m wide and < 0.1 m high. At T461 location beam is mm scale. Pulse length is pico-second scale. Energy spread is 0.1%. Repetition rate is 10 Hz (occasionally 1 Hz and 30 Hz).
T461 Setup Setup shielded by lead wall. Beam Current Toroid Upstream. Beam Direction
T461 Setup LED Beam passes into an air chamber. Chamber included 4 ports. Two PMT ports and two LED ports for stability tracking. Two additional “blind” PMTs. PMT
T461 Setup LEDs PMTs
T461 Setup LEDs Beam Gas Flow PMT
T461 Gas System Vacuum Reservoir Pure N2. Dry Air. Ethelyne.
T461 HV Stability (0.04%). PMTGAIN=eV With 6.
T461 Beam Stability (~2%) x 1010 e-
T461 Data Acquisition Signal Cables ADC Board Trigger Logic
Klystron Each klystron is 65 megawatts and operates at 120 Hz. Electron gun produces electron flow. Bunching cavity regulates electron flow. Electron bunches excite microwaves at output cavity. Waveguide carries microwaves to accelerator. Electrons absorbed in beam stop.