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The Focusing DIRC - the First RICH Detector toCorrect the Chromatic Error by Timing, and the Development of a New TOFDetector Concept

Description: We have built and successfully tested a novel particle identification detector called Focusing DIRC. The prototype's concept is based on the BaBar DIRC with several important improvements: (a) much faster pixilated photon detectors based on Burle MCP-PMT and Hamamatsu MaPMT, (b) mirror allowing to make the photon detector smaller and less sensitive to background in future applications, (c) electronics allowing to measure the single photon resolution to better than {sigma} {approx} 100-200ps, which allows a correction of the chromatic error. While testing the timing resolution limits of a 64-pixel MCP-PMT with 10 mm MCP holes, we have achieved a timing resolution of {sigma} {approx} 30ps with single photoelectrons. In this paper we further investigate limits of the timing resolution with this particular detector.
Date: September 12, 2007
Creator: Va'vra, Jaroslav; Benitez, Jorge A.; Leith, David W.G.S.; Mazaheri, Gholamali; Ratcliff, Blair N.; Schwiening, Jochen et al.
Partner: UNT Libraries Government Documents Department

Development of a Focusing DIRC

Description: Benefiting from the recent introduction of new fast vacuum-based photon detectors with a transit time spread of {sigma}{sub TTS} {approx} 30-150 ps, we are developing a novel RICH detector capable of correcting the chromatic error through good time measurements; we believe that this is the first time such a technique has been demonstrated. We have built and successfully tested a particle identification detector called ''Focusing DIRC''. The concept of the prototype is based on the BaBar DIRC, with several important improvements: (a) much faster pixelated photon detectors based on Burle MCP-PMTs and Hamamatsu MaPMTs, (b) a focusing mirror which allows the photon detector to be smaller and less sensitive to background in future applications, (c) electronics allowing the measurement of single photon timing to better than {sigma} {approx} 100-200ps, which allows a correction of the chromatic error. The detector was tested in a SLAC 10GeV/c electron test beam. This detector concept could be used for particle identification at Super B-factory, ILC, GlueX, Panda, etc.
Date: December 12, 2006
Creator: Benitez, J.; Bedajanek, I.; Leith, D.W.G.S.; Mazaheri, G.; Ratcliff, B.; Suzuki, K. et al.
Partner: UNT Libraries Government Documents Department

A recipe for the construction of confidence limits

Description: In this note, the authors present the recipe recommended by the Search Limits Committee for the construction of confidence intervals for the use of D0 collaboration. In another note, currently in preparation, they present the rationale for this recipe, a critique of the current literature on this topic, and several examples of the use of the method. This note is intended to fill the need of the collaboration to have a reference available until the more complete note is finished. Section 2 introduces the notation used in this note, and Section 3 contains the suggested recipe.
Date: April 12, 2000
Creator: al., Iain A Bertram et
Partner: UNT Libraries Government Documents Department

Report of research activities and continuation request for the High Energy Physics Group at Southern Methodist University. Final report

Description: The main effort of the Southern Methodist University (SMU) group is devoted to the CLEO experiment at CESR concentrating on studies of the properties of the tau lepton and of the bottom and charm quarks. In addition to the data analysis they have initiated a major effort in the construction of the particle identification device (RICH) for the CLEO III upgrade. At SMU in Dallas, Thomas Coan, with the help of Jingbo Ye and five graduate students, is leading the construction of the RICH inner radiator. This task includes design and assembly of RICH mechanical structure and tests of the LiF crystals used to generate Cerenkov light. This second independent construction effort is still in its early stage. The initial project is to develop inter-chip connectors for the RICH front-end readout boards. In parallel, they work with a Cornell engineer on the design of a VME based interface board between the front-end data board and DAQ electronics. They expect this project to expand and to include the fabrication of the data interface board for the RICH readout starting in the spring of 1996.
Date: March 12, 1999
Creator: Stroynowski, R. & Coan, T.E.
Partner: UNT Libraries Government Documents Department