The following email has been sent to :
===
Dear ,
The submission of your abstract has been successfully processed.
Abstract submitted: https://indico.cern.ch/userAbstracts.py?confId=192695.
Status of your abstract: https://indico.cern.ch/abstractDisplay.py?abstractId=1&confId=192695.
See below a detailed summary of your submitted abstract:
Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics
Submitted by:
Submitted on: 11 November 2013 22:22
Title: New High Rate Tracking area
Abstract content A new area for beam tests of high rate tracking devices is being commissioned at the Fermilab Test Beam Facility. The new area is in the MTest beam line upstream of the pinhole collimator in the MT3 Alcove. This area is suitable for tests of detectors with modest transverse dimensions. High rate tests will use 120 GeV protons. The maximum rate available is approximately 2.5 GHz/cm2(1E10 particles/spill). A Patch panel for signal and high voltage cables links the enclosure alcove area with the MS3 service building, where experimenters can monitor their apparatus. Network fiber is installed between the two areas, with capabilities for general network access and private network capabilities. A remotely controllable motion table is available so users can perform beam scans, and move detectors completely into and out of the beam, without making accesses to the beam enclosure.
Summary A new area for beam tests of high rate tracking devices is being commissioned at the Fermilab Test Beam Facility. The new area is in the MTest beam line upstream of the pinhole collimator in the MT3 Alcove. This area is suitable for tests of detectors with modest transverse dimensions. High rate tests will use 120 GeV protons. The maximum rate available is approximately 2.5 GHz/cm2(1E10 particles/spill). A Patch panel for signal and high voltage cables links the enclosure alcove area with the MS3 service building, where experimenters can monitor their apparatus. Network fiber is installed between the two areas, with capabilities for general network access and private network capabilities. A remotely controllable motion table is available so users can perform beam scans, and move detectors completely into and out of the beam, without making accesses to the beam enclosure.
Primary Authors: SOHA, Aria (Fermilab) aria@fnal.gov
Co-authors:
Abstract presenters: SOHA, Aria
Track classification: Sensors: 1b) Semiconductor Detectors Sensors: 1c) Gaseous Detectors Sensors: 1e) Novel technologies Experiments: 2a) Experiments & Upgrades
Presentation type: --not specified--
Comments: Would also be appropriate for a Test Beam category.