Private:GlueX Beamline (working title)

GlueX Beamline (working title)
This paper aims to describe characterization of diamond radiators under development by the UConn PAN group for the GlueX experiment in Hall D at Jefferson Lab.

The paper is intended for the Journal of Instrumentations (JINST) (author info here). It appears that the journal has no strict paper length requirements, but the content and its relevance to the community is judged against its length. Reviewers may recommend that a paper be shortened. Randomly sampling a few papers, they seem to be in the range of 10-40 pages.

The following outlines the content of the paper by section with topics, figures, tables, references etc.

Title
The title of this page is a working title for the paper. Suggestions are sought for a more precise title

Author List
The following is a tentative author list. At the moment, the scope of the paper is not known and therefore the list of contributors is not set. Further, the protocol for the author list precedence is not known in general and for the targeted journal so the ordering has not been thoughtfully reviewed.

Self-edited, one author per line, please include institutional address.
 * R.T. Jones, J. McIntyre, I. Senderovich, B. Pratt, C. Pelletier, University of Connecticut, Storrs, CT, USA.
 * G. Yang, University of Glasgow, Glasgow, UK.
 * J. Stewart, Brookhaven National Laboratory, Upton, NY, USA.
 * A. Somov, Jefferson Lab, Newport News, VA, USA.
 * F. Klein, Catholic University of America, DC, USA.
 * D. Sober, Catholic University of America, DC, USA.
 * L. Gan, North Carolina State University, Wilmington, NC, USA.

Abstract
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Outline (Sections, figures, tables, references)
 Introduction - editor R. Jones
 * Topics:
 * introduction to the Gluex experiment
 * context of the 12 GeV CEBAF upgrade
 * argument for photoproduction of hybrid mesons
 * advantages of polarization for spectroscopy
 * list of other physics topics to be addressed by Gluex
 * overview of paper organization.
 * Tables:
 * Figures:
 * References:

 Design Overview - editor R. Jones
 * Topics:
 * physics requirements
 * CEBAF constraints
 * choice of coherent bremsstrahlung
 * effects of collimation, optimum polarization at 9 GeV
 * beam line layout description
 * Tables:
 * physics requirements
 * machine + beam dump constraints
 * radiator material figures of merit
 * design goals: intensity, polarization, resolutions, efficiency
 * Figures:
 * plan view of Hall D photon beam line
 * References:

 Photon Source - editor R. Jones
 * Topics:
 * choice of diamond as radiator material
 * requirements for diamond radiators: mosaic spread and thickness
 * choice of beam spot size and diamond area
 * limitations from multiple scattering
 * radiation damage and lifetime
 * operating temperature and the diamond mount
 * Tables:
 * CB figure of merit for different radiator materials
 * specifications for the goniometer
 * Figures:
 * uncollimated CB spectrum
 * collimated CB spectrum, different collimations
 * polarization spectrum of collimated CB
 * peak polarization as function of peak energy at fixed electron energy
 * polarization vs radiator-collimator distance
 * collimated CB spectrum, different radiator thicknesses
 * illustration of goniometer mount
 * diamond temperature profile at full intensity
 * References:

 Collimation System - editor R. Jones
 * Topics:
 * Tables:
 * Figures:
 * References:

 Tagging Spectrometer - editor A. Somov
 * Topics:
 * Tables:
 * Figures:
 * References:

 Pair Spectrometer - editor L. Gao
 * Topics:
 * Tables:
 * Figures:
 * References:

 Polarimetry - editor R. Jones
 * Topics:
 * Tables:
 * Figures:
 * References:

 

Introduction
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Design Overview
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Photon Source
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Collimation System
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Tagging Spectrometer
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Pair Spectrometer
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Polarimetry
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