http://phynp6.phy-astr.gsu.edu/eRD14/index.php?action=history&feed=atom&title=Time_of_Flight_Detector_%28TOF%29 2026-05-21T18:32:20Z Revision history for this page on the wiki MediaWiki 1.26.2 http://phynp6.phy-astr.gsu.edu/eRD14/index.php?title=Time_of_Flight_Detector_(TOF)&diff=32&oldid=prev 2017-01-23T01:40:36Z

<p>Created page with &quot;High-resolution TOF provides a very attractive solution for PID covering the lower momenta range at the EIC, below the turn on threshold for gas RICH detectors. The R&amp;D pursu...&quot;</p> <p><b>New page</b></p><div>High-resolution TOF provides a very attractive solution for PID covering the lower momenta range at the EIC, below the turn on threshold for gas RICH detectors. The R&amp;D pursued here intends to push the state of the art of two technologies, MCP-PMT and mRPC, with an ultimate goal of 5 and 10 ps, respectively. Assuming a total resolution of 10 ps and a distance of 1 m, TOF could achieve 3σ separation for π/K and K/p of 3.5 and 6 GeV, respectively, which would be adequate for mid-rapidity PID. In the hadron going direction, where the TOF wall could be placed 3 m from the interaction point, the 3σ separation for π/K and K/p would be 6.5 and 11 GeV. Coupled with a dE/dx measurement from a TPC, TOF would also provide electron identification up to several GeV. Besides PID, TOF enables bunch association, which is required since each bunch may have a different polarization. <br /> <br /> TOF walls are also very compact. The TOF detectors proposed here are only about 2 cm thick and would fit in the available space of 10 cm in the ePHENIX barrel, even after a tilt to make them projective toward the IP. The cost of a mRPC-based TOF also makes them a very attractive option. Based on estimates from existing systems, a cost of about $200K/m2 is estimated for mRPC TOF. eRD14 is also pursuing TOF using LAPPD MCP-PMTs, which should be over an order of magnitude cheaper than MCP-PMTs from current vendors.</div>

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