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BarrelEMcal_HDDS.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--DOCTYPE HDDS>
Hall D Geometry Data Base: Barrel EM calorimeter
*************************************************
version 1.0: Initial version -rtj
version 1.2: Initial SiPM subsectoring -cx,zp
version 3.2: Pushed inner radius out to match final drawings -dl
version 4.0: updates for compatibility with geant4 -rtj
a) Add shifts, most of them small, to eliminate overlaps.
b) Significant changes in the base dimensions of the light
guides so that they fit within the readout segments.
c) Enlarge the outer radius of the BCAL container volume,
and also the module BCAM volume, so that they can fully
contain all of the objects placed inside them.
d) Split the stainless standoffs (SOFF) into two segments
so they can fit between the readout layers without
generating overlaps.
e) Move the Winston cones out of the aluminum plate into
the main BCal readout volume. Then place the aluminum
plate into the same volume, on a separate geometry layer
so that the Winston cones can penetrate through it.
f) Place the coolant coupling tubes (CoolingCon) onto a
separate geometry layer so that they can interleave with
the readout layers without generating overlaps.
version 4.1: Removed overall rotation by 2 sectors to match actual installation -dl
<HDDS specification="v1.0" xmlns="http://www.gluex.org/hdds">
-->
<section name = "BarrelEMcal"
version = "4.1"
date = "2007-12-08"
author = "R.T. Jones"
top_volume = "BCAL"
specification = "v1.1">
<!-- Origin of BarrelEMcal is center of upstream end
of the active region, not including the light guides. -->
<!--
11/12/2012 David L.
This file contains numbers generated from 2 sources for the BCAL layer
information. The first is from an e-mail sent by Chuck Hutton on Nov. 7, 2012
to me which gave the following values (in inches!):
Dimension from center of bcal to inner surface of inner (thin) plate = 25.29472
Dimension from center of bcal to outer surface of inner (thin) plate = 25.60722
Dimension from center of bcal to inner surface of outer (thick) plate = 34.34000
Dimension from center of bcal to outer surface of outer (thick) plate = 35.59000
In addition Drawing D00000-01-07-2073 was used to determine the cell-sizes for
the inner layers (1-6) and outer layers (7-10) to be:
inner: 2.06756cm
outer: 2.47396cm
The 25.60722in number from Chuck along with the above cell-sizes were used to
determine the layer dimensions. This comes out being slightly past the
34.34000in number. This descrepancy was never resolved as it amounted to about
1.2mm of additional active area on the outside of the BCAL.
In addition, the ReadoutBox volumes were shifted 7.423mm out from their original
value since this most recent change (version 3.2) shifted the radius of the
active volume out by that amount. Similarly for the cables.
The BCAL and BCAM mother volumes were also tightened by pushing the
inner radius from 61.76 out to 64.2486. The small inner radius had the
BCAL volume (air) masking material between the CDC and BCAL. It also
caused conflict with drift chamber cable supports.
-->
<composition name="BarrelEMcal">
<posXYZ volume="barrelEMcal" X_Y_Z="0.0 0.0 195.0" />
<posXYZ volume="BCSU" X_Y_Z="0.0 0.0 -17.5" />
<posXYZ volume="BCSD" X_Y_Z="0.0 0.0 407.5" />
</composition>
<composition name="barrelEMcal" envelope="BCAL">
<mposPhi volume="barrelModule" ncopy="48" Phi0="0.0" impliedRot="true">
<module value="1" step="1" />
</mposPhi>
</composition>
<composition name="barrelModule" envelope="BCAM">
<posXYZ volume="BCL0" />
<posXYZ volume="BCALlayer_1" />
<posXYZ volume="BCALlayer_2" />
<posXYZ volume="BCALlayer_3" />
<posXYZ volume="BCALlayer_4" />
<posXYZ volume="BCALlayer_5" />
<posXYZ volume="BCALlayer_6" />
<posXYZ volume="BCALlayer_7" />
<posXYZ volume="BCALlayer_8" />
<posXYZ volume="BCALlayer_9" />
<posXYZ volume="BCALlayer_10" />
<posXYZ volume="BCAS" />
<posRPhiZ volume="ReadoutBox" R_Phi_Z="77.2440 0.0 207.5" rot="-90 -90 -90"/>
<posRPhiZ volume="ReadoutBox" R_Phi_Z="77.2440 0.0 -207.5" rot="90 90 90" />
<!-- The following are sets of top and bottom plates for the readout boxes -->
<posRPhiZ volume="ALID" R_Phi_Z="64.38703 0. -201.2996" rot="90. 0. 90."/>
<posRPhiZ volume="ALID" R_Phi_Z="64.38703 0. +201.2996" rot="90. 0. 90."/>
<posRPhiZ volume="ALOD" R_Phi_Z="90.1458 0. -201.2996" rot="90. 0. 90."/>
<posRPhiZ volume="ALOD" R_Phi_Z="90.1458 0. +201.2996" rot="90. 0. 90."/>
<!-- These are some extensions to the lids at the bottom -->
<posRPhiZ volume="ALBL" R_Phi_Z="64.69703 0. +195.47625" rot="90. 90. 90."/>
<posRPhiZ volume="ALBL" R_Phi_Z="64.69703 0. -195.47625" rot="90. 90. 90."/>
<!-- The following are the arrays of Winston cones for the readout -->
<posRPhiZ volume="BCALWinstonCones" R_Phi_Z="77.1658 0. -202.76125" rot="90. 90. 90."/>
<posRPhiZ volume="BCALWinstonCones" R_Phi_Z="77.1658 0. 202.76125" rot="-90. -90. -90."/>
<!-- The following are aluminum plates with holes through which the light guides stick -->
<posRPhiZ volume="ALPL" R_Phi_Z="77.1658 0. -202.76125" rot="90. 90. 90."
geometry_layer="1"/>
<posRPhiZ volume="ALPL" R_Phi_Z="77.1658 0. 202.76125" rot="-90. -90. -90."
geometry_layer="1"/>
</composition>
<composition name="BCALWinstonCones">
<posXYZ volume="BCUA" X_Y_Z="0.0 4.22505 8.837" rot="90. 2.8125 90."/>
<posXYZ volume="BCUA" X_Y_Z="0.0 1.40885 8.92919" rot="90. 0.9375 90."/>
<posXYZ volume="BCUA" X_Y_Z="0.0 -1.40885 8.92919" rot="90. -0.9375 90."/>
<posXYZ volume="BCUA" X_Y_Z="0.0 -4.22505 8.837 " rot="90. -2.8125 90."/>
<posXYZ volume="BCU9" X_Y_Z="0.0 4.10375 6.368" rot="90. 2.8125 90."/>
<posXYZ volume="BCU9" X_Y_Z="0.0 1.3684 6.45756" rot="90. 0.9375 90."/>
<posXYZ volume="BCU9" X_Y_Z="0.0 -1.3684 6.45756" rot="90. -0.9375 90."/>
<posXYZ volume="BCU9" X_Y_Z="0.0 -4.10375 6.368 " rot="90. -2.8125 90."/>
<posXYZ volume="BCU8" X_Y_Z="0.0 3.98226 3.895" rot="90. 2.8125 90."/>
<posXYZ volume="BCU8" X_Y_Z="0.0 1.3279 3.9819" rot="90. 0.9375 90."/>
<posXYZ volume="BCU8" X_Y_Z="0.0 -1.3279 3.9819" rot="90. -0.9375 90."/>
<posXYZ volume="BCU8" X_Y_Z="0.0 -3.98226 3.895 " rot="90. -2.8125 90."/>
<posXYZ volume="BCU7" X_Y_Z="0.0 3.86087 1.42406" rot="90. 2.8125 90."/>
<posXYZ volume="BCU7" X_Y_Z="0.0 1.28742 1.5083" rot="90. 0.9375 90."/>
<posXYZ volume="BCU7" X_Y_Z="0.0 -1.28742 1.5083" rot="90. -0.9375 90."/>
<posXYZ volume="BCU7" X_Y_Z="0.0 -3.86087 1.42406" rot="90. -2.8125 90."/>
<posXYZ volume="BCU6" X_Y_Z="0.0 3.74945 -0.84396" rot="90. 2.8125 90."/>
<posXYZ volume="BCU6" X_Y_Z="0.0 1.25026 -0.76215" rot="90. 0.9375 90."/>
<posXYZ volume="BCU6" X_Y_Z="0.0 -1.25026 -0.76215" rot="90. -0.9375 90."/>
<posXYZ volume="BCU6" X_Y_Z="0.0 -3.74945 -0.84396" rot="90. -2.8125 90."/>
<posXYZ volume="BCU5" X_Y_Z="0.0 3.648 -2.909" rot="90. 2.8125 90."/>
<posXYZ volume="BCU5" X_Y_Z="0.0 1.21643 -2.82943" rot="90. 0.9375 90."/>
<posXYZ volume="BCU5" X_Y_Z="0.0 -1.21643 -2.82943" rot="90. -0.9375 90."/>
<posXYZ volume="BCU5" X_Y_Z="0.0 -3.648 -2.909" rot="90. -2.8125 90."/>
<posXYZ volume="BCU4" X_Y_Z="0.0 3.54655 -4.9741" rot="90. 2.8125 90."/>
<posXYZ volume="BCU4" X_Y_Z="0.0 1.18261 -4.89672" rot="90. 0.9375 90."/>
<posXYZ volume="BCU4" X_Y_Z="0.0 -1.18261 -4.89672" rot="90. -0.9375 90."/>
<posXYZ volume="BCU4" X_Y_Z="0.0 -3.54655 -4.9741" rot="90. -2.8125 90."/>
<posXYZ volume="BCU3" X_Y_Z="0.0 3.4451 -7.03932" rot="90. 2.8125 90."/>
<posXYZ volume="BCU3" X_Y_Z="0.0 1.14878 -6.964" rot="90. 0.9375 90."/>
<posXYZ volume="BCU3" X_Y_Z="0.0 -1.14878 -6.964" rot="90. -0.9375 90."/>
<posXYZ volume="BCU3" X_Y_Z="0.0 -3.4451 -7.03932" rot="90. -2.8125 90."/>
<posXYZ volume="BCU2" X_Y_Z="0.0 3.34365 -9.10424" rot="90. 2.8125 90."/>
<posXYZ volume="BCU2" X_Y_Z="0.0 1.11495 -9.03128" rot="90. 0.9375 90."/>
<posXYZ volume="BCU2" X_Y_Z="0.0 -1.11495 -9.03128" rot="90. -0.9375 90."/>
<posXYZ volume="BCU2" X_Y_Z="0.0 -3.34365 -9.10424" rot="90. -2.8125 90."/>
<posXYZ volume="BCU1" X_Y_Z="0.0 3.2422 -11.16931" rot="90. 2.8125 90."/>
<posXYZ volume="BCU1" X_Y_Z="0.0 1.08112 -11.0986" rot="90. 0.9375 90."/>
<posXYZ volume="BCU1" X_Y_Z="0.0 -1.08112 -11.0986" rot="90. -0.9375 90."/>
<posXYZ volume="BCU1" X_Y_Z="0.0 -3.2422 -11.16931" rot="90. -2.8125 90."/>
</composition>
<composition name="BCALlayer_1" envelope="BCL1">
<mposPhi volume="BCALsector_1" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="1" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_2" envelope="BCL2">
<mposPhi volume="BCALsector_2" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="2" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_3" envelope="BCL3">
<mposPhi volume="BCALsector_3" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="3" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_4" envelope="BCL4">
<mposPhi volume="BCALsector_4" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="4" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_5" envelope="BCL5">
<mposPhi volume="BCALsector_5" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="5" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_6" envelope="BCL6">
<mposPhi volume="BCALsector_6" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="6" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_7" envelope="BCK7">
<mposPhi volume="BCALsector_7" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="7" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_8" envelope="BCK8">
<mposPhi volume="BCALsector_8" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="8" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_9" envelope="BCK9">
<mposPhi volume="BCALsector_9" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="9" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALlayer_10" envelope="BCKA">
<mposPhi volume="BCALsector_10" ncopy="4" Phi0="-2.8125" dPhi="1.875"
impliedRot="true">
<layer value="10" />
<sector value="1" step="1" />
</mposPhi>
</composition>
<composition name="BCALsector_1" envelope="BCS1">
<posRPhiZ volume="BM01" />
<posRPhiZ volume="BCN1" R_Phi_Z="66.0761 0.0 198.76125" />
<posRPhiZ volume="BCN1" R_Phi_Z="66.0761 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_2" envelope="BCS2">
<posRPhiZ volume="BM02" />
<posRPhiZ volume="BCN2" R_Phi_Z="68.1436 0.0 198.76125" />
<posRPhiZ volume="BCN2" R_Phi_Z="68.1436 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_3" envelope="BCS3">
<posRPhiZ volume="BM03" />
<posRPhiZ volume="BCN3" R_Phi_Z="70.2112 0.0 198.76125" />
<posRPhiZ volume="BCN3" R_Phi_Z="70.2112 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_4" envelope="BCS4">
<posRPhiZ volume="BM04" />
<posRPhiZ volume="BCN4" R_Phi_Z="72.2788 0.0 198.76125" />
<posRPhiZ volume="BCN4" R_Phi_Z="72.2788 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_5" envelope="BCS5">
<posRPhiZ volume="BM05" />
<posRPhiZ volume="BCN5" R_Phi_Z="74.3463 0.0 198.76125" />
<posRPhiZ volume="BCN5" R_Phi_Z="74.3463 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_6" envelope="BCS6">
<posRPhiZ volume="BM06" />
<posRPhiZ volume="BCN6" R_Phi_Z="76.4139 0.0 198.76125" />
<posRPhiZ volume="BCN6" R_Phi_Z="76.4139 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_7" envelope="BCA7">
<posRPhiZ volume="BMF7" />
<posRPhiZ volume="BCO7" R_Phi_Z="78.6846 0.0 198.76125" />
<posRPhiZ volume="BCO7" R_Phi_Z="78.6846 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_8" envelope="BCA8">
<posRPhiZ volume="BMF8" />
<posRPhiZ volume="BCO8" R_Phi_Z="81.1586 0.0 198.76125" />
<posRPhiZ volume="BCO8" R_Phi_Z="81.1586 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_9" envelope="BCA9">
<posRPhiZ volume="BMF9" />
<posRPhiZ volume="BCO9" R_Phi_Z="83.6326 0.0 198.76125" />
<posRPhiZ volume="BCO9" R_Phi_Z="83.6326 0.0 -198.76125" rot="180 0 0" />
</composition>
<composition name="BCALsector_10" envelope="BCAA">
<posRPhiZ volume="BMFA" />
<posRPhiZ volume="BCOA" R_Phi_Z="86.1065 0.0 198.76125" />
<posRPhiZ volume="BCOA" R_Phi_Z="86.1065 0.0 -198.76125" rot="180 0 0" />
</composition>
<tubs name="BCAL" Rio_Z="64.2485 90.5185 425.0" unit_length="cm" material="Air"
comment="barrel EMcal mother" />
<tubs name="BCAM" Rio_Z="64.2485 90.5185 425.0" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel calorimeter module">
<!--apply region="nullBfield"/-->
</tubs>
<tubs name="BCAS" Rio_Z="87.3435 90.5185 390.0" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Aluminum" comment="bcal module support bar" />
<tubs name="BCL0" Rio_Z="64.2486 65.0423 390.0" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Aluminum" comment="bcal inside support plate" />
<tubs name="BCL1" Rio_Z="65.0423 67.10986 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 1" />
<tubs name="BCS1" Rio_Z="65.0423 67.10986 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 1" />
<tubs name="BCL2" Rio_Z="67.10986 69.17742 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 2" />
<tubs name="BCS2" Rio_Z="67.10986 69.17742 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 2" />
<tubs name="BCL3" Rio_Z="69.17742 71.24498 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 3" />
<tubs name="BCS3" Rio_Z="69.17742 71.24498 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 3" />
<tubs name="BCL4" Rio_Z="71.24498 73.31254 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 4" />
<tubs name="BCS4" Rio_Z="71.24498 73.31254 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 4" />
<tubs name="BCL5" Rio_Z="73.31254 75.3801 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 5" />
<tubs name="BCS5" Rio_Z="73.31254 75.3801 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 5" />
<tubs name="BCL6" Rio_Z="75.3801 77.44766 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 6" />
<tubs name="BCS6" Rio_Z="75.3801 77.44766 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 6" />
<tubs name="BCK7" Rio_Z="77.44766 79.92162 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 7" />
<tubs name="BCA7" Rio_Z="77.44766 79.92162 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 7" />
<tubs name="BCK8" Rio_Z="79.92162 82.39558 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 8" />
<tubs name="BCA8" Rio_Z="79.92162 82.39558 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 8" />
<tubs name="BCK9" Rio_Z="82.39558 84.86954 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 9" />
<tubs name="BCA9" Rio_Z="82.39558 84.86954 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 9" />
<tubs name="BCKA" Rio_Z="84.86954 87.3435 405.045" profile="-3.75 7.5"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module layer 10" />
<tubs name="BCAA" Rio_Z="84.86954 87.3435 405.045" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="Air" comment="barrel EMcal module sector 10" />
<tubs name="BM01" Rio_Z="65.0423 67.10986 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 1" />
<tubs name="BM02" Rio_Z="67.10986 69.17742 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 2" />
<tubs name="BM03" Rio_Z="69.17742 71.24498 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 3" />
<tubs name="BM04" Rio_Z="71.24498 73.31254 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 4" />
<tubs name="BM05" Rio_Z="73.31254 75.3801 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 5" />
<tubs name="BM06" Rio_Z="75.3801 77.44766 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in ring 6" />
<tubs name="BMF7" Rio_Z="77.44766 79.92162 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in layer 7" />
<tubs name="BMF8" Rio_Z="79.92162 82.39558 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in layer 8" />
<tubs name="BMF9" Rio_Z="82.39558 84.86954 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in layer 9" />
<tubs name="BMFA" Rio_Z="84.86954 87.3435 390.0" profile="-0.9375 1.875"
unit_length="cm" unit_angle="deg"
material="leadScint" sensitive="true"
comment="barrel EMcal submodule in layer 10" />
<trd name="BCN1" Xmp_Ymp_Z="2.050 1.412 2.128 1.412 7.5225"
material="Plexiglas" comment="light collector for layer 1"/>
<trd name="BCN2" Xmp_Ymp_Z="2.050 1.416 2.190 1.416 7.5225"
material="Plexiglas" comment="light collector for layer 2"/>
<trd name="BCN3" Xmp_Ymp_Z="2.050 1.420 2.230 1.420 7.5225"
material="Plexiglas" comment="light collector for layer 3"/>
<trd name="BCN4" Xmp_Ymp_Z="2.050 1.424 2.260 1.424 7.5225"
material="Plexiglas" comment="light collector for layer 4"/>
<trd name="BCN5" Xmp_Ymp_Z="2.050 1.428 2.300 1.428 7.5225"
material="Plexiglas" comment="light collector for layer 5"/>
<trd name="BCN6" Xmp_Ymp_Z="2.048 1.432 2.430 1.432 7.5225"
material="Plexiglas" comment="light collector for layer 6"/>
<trd name="BCO7" Xmp_Ymp_Z="2.420 1.437 2.530 1.437 7.5225"
material="Plexiglas" comment="light collector for layer 7"/>
<trd name="BCO8" Xmp_Ymp_Z="2.420 1.441 2.580 1.441 7.5225"
material="Plexiglas" comment="light collector for layer 8"/>
<trd name="BCO9" Xmp_Ymp_Z="2.420 1.446 2.650 1.446 7.5225"
material="Plexiglas" comment="light collector for layer 9"/>
<trd name="BCOA" Xmp_Ymp_Z="2.420 1.451 2.740 1.451 7.5225"
material="Plexiglas" comment="light collector for layer 10"/>
<trd name="BCU1" Xmp_Ymp_Z="1.412 1.364 1.412 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 1"/>
<trd name="BCU2" Xmp_Ymp_Z="1.416 1.364 1.416 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 2"/>
<trd name="BCU3" Xmp_Ymp_Z="1.420 1.364 1.420 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 3"/>
<trd name="BCU4" Xmp_Ymp_Z="1.424 1.364 1.424 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 4"/>
<trd name="BCU5" Xmp_Ymp_Z="1.428 1.364 1.428 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 5"/>
<trd name="BCU6" Xmp_Ymp_Z="1.432 1.364 1.432 1.364 0.4775"
material="Plexiglas" comment="Winston cone stub for layer 6"/>
<trd name="BCU7" Xmp_Ymp_Z="1.437 1.364 1.437 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 7"/>
<trd name="BCU8" Xmp_Ymp_Z="1.441 1.364 1.441 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 8"/>
<trd name="BCU9" Xmp_Ymp_Z="1.446 1.364 1.446 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 9"/>
<trd name="BCUA" Xmp_Ymp_Z="1.451 1.364 1.451 1.364 0.4775"
material="Plexiglas" comment="light collector stub for layer 10"/>
<composition name="ReadoutBox" envelope="ROUT">
<posXYZ volume="PMHO" X_Y_Z="-4.2625 0. 0. "/>
<posXYZ volume="CUPL" X_Y_Z="-3.575 0. 0. "/>
<posXYZ volume="PCB2" X_Y_Z="-2.3975 0. 0. "/>
<posXYZ volume="CoolingTransition" X_Y_Z="-1.1675 0. -2."/>
<posXYZ volume="CoolingFins" X_Y_Z="2.157 0. -2."/>
<posXYZ volume="ALP1" X_Y_Z="0.0325 0. 0. "/>
<posXYZ volume="CoolingCon" X_Y_Z="0.3125 -2. -10." rot="0. 75. 0."
geometry_layer="1"/>
<posXYZ volume="CoolingCon" X_Y_Z="0.3125 +2. -10." rot="0. 75. 0."
geometry_layer="1"/>
<posXYZ volume="ReadoutStandoffs" X_Y_Z="0. 0. -11." rot="0. 90. 0."/>
<posXYZ volume="ReadoutStandoffs" X_Y_Z="0. -3.5 -12." rot="0. 90. 0."/>
<posXYZ volume="ReadoutStandoffs" X_Y_Z="0. +3.5 -12." rot="0. 90. 0."/>
</composition>
<composition name="CoolingCon" envelope="COCO">
<posXYZ volume="PIP1"/>
<posXYZ volume="PIP2" X_Y_Z="0. 0. 2.75"/>
</composition>
<composition name="CoolingTransition" envelope="COTR">
<posXYZ volume="ALFE" X_Y_Z="-0.15875 1.25 0." rot="-1.5 0. 0."/>
<posXYZ volume="ALFE" X_Y_Z="-0.15875 -1.25 0." rot="1.5 0. 0."/>
<posXYZ volume="ALFE" X_Y_Z="-0.15875 3.5 0." rot="-2.95 0. 0."/>
<posXYZ volume="ALFE" X_Y_Z="-0.15875 -3.5 0." rot="2.95 0. 0."/>
<posXYZ volume="ALP2" X_Y_Z="0.9525 0. 0."/>
</composition>
<composition name="CoolingFins" envelope="COFI">
<posXYZ volume="HSPL" X_Y_Z="-1.905 0. 0."/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -4.74"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -4.01"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -3.28"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -2.55"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -1.82"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -1.09"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. -0.37"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 0.37"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 1.1"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 1.82"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 2.55"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 3.28"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 4.01"/>
<posXYZ volume="HSFI" X_Y_Z="0.16 0. 4.74"/>
</composition>
<composition name="ReadoutStandoffs">
<posXYZ volume="SOF1" X_Y_Z="0 0 -2.820305"/>
<posXYZ volume="SOF2" X_Y_Z="0 0 -1.153195"/>
</composition>
<trd name="CUPL" Xmp_Ymp_Z="0.9 0.9 8.359 11.37412 25.1667"
material="Copper" comment="Copper cooling plate"/>
<trd name="PMHO" Xmp_Ymp_Z="0.475 0.475 8.359 11.37412 25.1667"
material="FR-4" comment="SiPM holder FR-4 is like G10"/>
<trd name="ALPL" Xmp_Ymp_Z="0.475 0.475 8.359 11.37412 25.1667"
material="Aluminum" comment="Aluminum inner frame plate"/>
<trd name="ALP1" Xmp_Ymp_Z="0.119 0.119 8.359 11.37412 25.1667"
material="Aluminum" comment="Aluminum outer frame plate"/>
<trd name="ROUT" Xmp_Ymp_Z="9. 9. 8.359 11.37412 25.1667"
material="Air" comment="Readout Box mother Volume"/>
<box name="ALID" X_Y_Z="8.3566 12.5992 0.27686"
material="Aluminum" comment="Al ID wall"/>
<box name="ALOD" X_Y_Z="11.37412 12.5992 0.27686"
material="Aluminum" comment="Al OD wall"/>
<tubs name="PIP1" Rio_Z="0.23622 0.3175 8.0" profile="0. 360."
material="Copper" comment="SiPM cooling tube"/>
<tubs name="PIP2" Rio_Z="0.3175 0.6 2.5" profile="0. 360."
material="Copper" comment="SiPM cooling tube connector"/>
<tubs name="COCO" Rio_Z="0. 0.6 8.0" profile="0. 360."
material="Air" comment="SiPM cooling Tubing System"/>
<trd name="PCB2" Xmp_Ymp_Z="0.23622 0.23622 8.359 11.37412 25.1667"
material="FR-4" comment="PCB board for electronics"/>
<trd name="ALP2" Xmp_Ymp_Z="0.3175 0.3175 6.985 8.5598 15."
material="Aluminum" comment="Cooling bridge plate"/>
<box name="ALFE" X_Y_Z="1.905 0.635 15."
material="Aluminum" comment="Cooling bridge feet"/>
<trd name="COTR" Xmp_Ymp_Z="2.2225 2.2225 7.5 9.0 15.05"
material="Air" comment="Cooling transition box Volume"/>
<box name="COFI" X_Y_Z="4.13 8. 12."
material="Air" comment="Cooling Fins box Volume"/>
<box name="HSPL" X_Y_Z="0.32 7.63 11.58"
material="Aluminum" comment="Base plate of Cooling Fins"/>
<box name="HSFI" X_Y_Z="3.81 7.63 0.15"
material="Aluminum" comment="Cooling Fin"/>
<box name="ALBL" X_Y_Z="0.9525 8.3566 0.34"
material="Aluminum" comment="Cooling Fin"/>
<tubs name="SOF1" Rio_Z="0. 0.25 0.60939" profile="0. 360."
material="StainlessSteel" comment="Standoff"/>
<tubs name="SOF2" Rio_Z="0. 0.25 2.25239" profile="0. 360."
material="StainlessSteel" comment="Standoff"/>
<pcon name="BCSU" material="SignalCables" comment="upstream readout cables">
<polyplane Rio_Z="91.8 120. -57.0" />
<polyplane Rio_Z="88.8 120. -54.0" />
<polyplane Rio_Z="88.8 93.0 -54.0" />
<polyplane Rio_Z="85.0 89.2 -50.2" />
<polyplane Rio_Z="85.0 88.0 -49." />
<polyplane Rio_Z="85.0 88.0 -10." />
<polyplane Rio_Z="65.0423 88.0 0.0" />
</pcon>
<pcon name="BCSD" material="SignalCables" comment="downstream readout cables">
<polyplane Rio_Z="65.0423 88.0 0.0" />
<polyplane Rio_Z="85.0 88.0 10." />
<polyplane Rio_Z="85.0 88.0 30." />
</pcon>
<!-- The following elements describe an early rendition of the GlueX
detector simulated using a fast Monte Carlo program MCFast. They
are retained for future reference, do not rely on their values. -->
<parameters name="barrelEMcal_pars" type="mcfast">
<real_array name="rmin" comment="upstream, downstream end inner radius"
values=" 65.0 65.0"
unit="cm" />
<real_array name="rmax" comment="upstream, downstream end outer radius"
values=" 90.0 90.0"
unit="cm" />
<real name="z0" value="212.0" comment="z coord. of midplane"
unit="cm" />
<real name="zlen" value="390.0" comment="length of counters"
unit="cm" />
<reference name="material" value="leadScint" />
<reference name="active" value="leadScint" />
<int name="nphi" value="48" comment="phi segmentation" />
<int name="neta" value="1" comment="longitudinal seg" />
<int name="nlayers" value="1" comment="radial segmentation" />
<real name="siga_em" value="0.06" comment="rootE coefficient"
unit="cm" />
<real name="sigb_em" value="0.01" comment="floor term"
unit="cm" />
<real name="siga_had" value="0.30" comment="rootE coefficient"
unit="cm" />
<real name="sigb_had" value="0.03" comment="floor term"
unit="cm" />
<real name="em_had_ratio" value="4.0" comment="response ratio"
unit="cm" />
</parameters>
<mcfast model="EMCal" template="db/emcal.db" parameters="barrelEMcal_pars">
<string name="name" value="BCAL" />
<string name="shape" value="TUBE" />
<int name="type" value="1" />
</mcfast>
</section>
<!-- </HDDS> -->