KEK test beam KEKPS T585 - PowerPoint PPT Presentation

1 / 14
About This Presentation
Title:

KEK test beam KEKPS T585

Description:

TOF hodoscope. 2.5inch finemesh PMT (R6504S) Light guide. Scintillater. TOF 1 5. TOF 6 ... Tracker did not fit into the solenoid bore and TOF hodoscope plane ... – PowerPoint PPT presentation

Number of Views:23
Avg rating:3.0/5.0
Slides: 15
Provided by: yos73
Category:
Tags: kek | kekps | beam | hodoscope | t585 | test

less

Transcript and Presenter's Notes

Title: KEK test beam KEKPS T585


1
KEK test beam- KEK-PS T585 -
  • M. Yoshida
  • MICE CM _at_Osaka
  • 2006/3/1

2
Contents
  • Introduction to KEK-PS T585
  • Review of problems, focused on the tracker system

3
Tracker prototype test in KEKKEK-PS T585
  • Prototype SciFi tracker was tested to check basic
    performance in 1 Tesla solenoid magnet.
  • KEK-PS T585 was performed in Sept. Oct. 2005 by
    world-wide collaboration.
  • More than 20 people joined.

KEK-PS p2 beamline
4
4-Station Tracker Prototype
Old waveguide 400cm
External waveguide 400cm
VLPC 2 cassette 2048 ch
internal waveguide 120cm
BEAM
5
TOF hodoscope
  • 2.5inch finemesh PMT (R6504S)
  • Light guide
  • Scintillater

55 hodoscope (2cm thick 2cm thick)
PMT A
53 cm
TOF 6?10
40 cm
PMT A
PMT B
PMT B
2005.9.26
TOF 1 ?5
6
Experimental Setup
TOF hodoscope
ACC
8.5m
T1
7
DATA Set
  • VLPC LED calibration
  • Beam survey
  • High momentum beam
  • 3 GeV/c
  • p-
  • Solenoid OFF
  • check alignment, light yield, noise and so on.
  • Low momentum beam
  • 0.25, 0.325, 0.4 GeV/c
  • m-, p-, e-
  • Solenoid ON
  • Rotation
  • 3 deg. / 6 deg.

8
Integration
  • Tracker did not fit into the solenoid bore and
    TOF hodoscope plane
  • mis-communication on design work
  • Extracted waveguides from the opposite side
    (smaller bore)
  • caused tracker located off-center, and slightly
    poor uniformity of magnetic field
  • Tracker frame has dwell pins made of iron.
  • Left them on the frame. It was estimated to be
    safe in 1T

9
VLPC cryostat
  • High room temperature seemed to spoil the
    performance of air-cooled compressor of cyocooler
  • Added spot-cooler
  • Moisture on lid due to high humidity
  • Temperature setting of heater on lid changed to
    be as higher as possible
  • Too high magnetic field for vacuum pump attached
    on cryostat
  • Moved pumps 2-meter away from the cryostat

10
VLPC readout
  • The readout system with AVNET, Clock Gen. and AFE
    is too complicated for non-AFE-experts.
  • We spent 4 days to set timing for LED and beam
    trigger
  • We needed to scan trigger timing fed to AFE using
    beam particles.
  • Tuning procedure should be well documented for
    non-experts.

11
VLPC gain calibration
  • Gain is estimated using LED data
  • One VLPC cassette shows excellent performance,
    the other has too low gain to see photon peaks
  • Assumed gain of 8 ADC-counts / p.e.

AFE board 107 MCM 1 Channel 1
8 cnts/p.e.
12
Fiber mapping
  • We have no logs to show the connections between
    the 4th station and waveguides.
  • Constructed yellow-room besides experimental
    area, and opened the tracker cylinder to check
    the connection by eyes.
  • There still remained confusion on mapping
  • Investigate by using straight tracks of high
    momentum beam

13
Light yield
  • Light yields in 4th station (Station D) is much
    less than expectation.
  • Investigation will be reported
  • Have to feedback to mass-production.

14
Summary
  • In KEK test-beam, we obtained much experience on
    construction and operation of the tracker, to be
    feedback to full tracker production.
  • Integration
  • Cryostat
  • Readout
  • Calibration
  • Mapping
  • Analyses in details using beam data will be
    reported in subsequent talks.
Write a Comment
User Comments (0)
About PowerShow.com