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Subject: sPHENIX HCal discussion
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- From: EdwardOBrien <eobrien AT bnl.gov>
- To: "sphenix-hcal-l AT lists.bnl.gov" <sphenix-hcal-l AT lists.bnl.gov>, sphenix-tracking-l AT lists.bnl.gov
- Subject: [Sphenix-hcal-l] The pCDR so far
- Date: Mon, 21 Sep 2015 19:52:57 -0400
Dear all,
I've done a complete read-through of the draft of the sPHENIX
pCDR and have been impressed by the quality of the text and
the level of level of detail in the document so far.
I have many comments for the authors and contributors to consider.
Ed
We need to add a chapter of Detector Overview and Requirements
immediately after the Scientific Objectives chapter. The Overview
chapter needs to contain much of the information in chapter 2
of the sPHENIX Proposal.
Complete the missing sections on the Si strips for the Tracker and
the Project Management chapter.
The magnet chapter needs more discussion of the magnet acceptance tests
including both the warm test, low power cold test and the full field
test.
Both the cryo system based on tapping into the RHIC cryo and a stand
alone cryo system should be discussed. Currently only the stand alone
system is mentioned in the text.
A description of the magnet flux return should be included in the Magnet chapter
in addition to the results of initial magnetic force and field calculations.
In general the design of sPHENIX components should be referred to
as the "reference design". We're a couple of years from having a final
design.
The EMCal chapter was repetitive in its description of tower design and
tower production issues. Please clean that up.
The HCal chapter contains 14 pages describing the R&D and test beam effort.
This is far too much. The emphasis in the R&D section should be on what we
have learned so far and what still needs to be answered in future bench and beam
tests. Remember that the pCDR is not a status report.
The Installation section 9.3 contained too many bulleted lists. Where
appropriate convert them to paragraphs.
Many figures are still needed.
Other comments:
Figure 1.23. What does the color band at the top of the figure mean?
Magnet 2.1.1. Mention when the magnet was produced (1996?). When it arrived at BNL
(early 2015)
Figure 2.6. This figure may be too faint for the document.
Section 2.2.7 Cryogenic plant. Describe both the stand alone option and the tapping into
RHIC cryo option.
Secton 2.3.3 In the Energy Extraction subsection we need a statement that the set-up
with the dump resistor poses no risk to the equipment, or safety issue during a quench.
We should state that the quench effects had been analyzed and that there was
no equipment hazard.
Section 3.4 TPC electronics It would be better to call for 100k channels/side rather than
90k, because that implies a more accurate knowledge of the channel count than we currently have.
Section 3.4 quotes the sPHENIX interaction rate ~ 25 kHz, I believe that this is the max rate inside
+/- 10 cm, not the MB rate inside the full diamond.
This section contains too many undefined acronyms, LTU, FEC, GBT to name a few. Please fix.
EMCal chapter 4. Use electron-hadron rather than electron-pion where appropriate.
Secton 4.2.2 A figure here showing the different modularity of the detector would help,
tower, module and sector.
The stainless steel box is "thin-walled", not "thin"
The description of the tower fabrication which starts," Making the fiber taper in 2 dimensions..."
is too detailed .
Instead of "we are working to improve the quality of the ends...", write," The quality of the
ends of the surfaces are very improtant to the performance...."
Section 4.2.3 Discuss both the THP and University assembly options as two equal possibilities. I
think that they are equally likely. Replace "We hope" with "We expect".
Section 4.3.2 "Energy resolution for electron showers is reproduced within 10% relativity"
What is "relativity"
Sections 4.3.3 - 4.3.7. Should they be moved up in chapter 4 to be near the beginning of 4.2?
Section 4.5 Alternate Technologies. Make a stronger argument against the 2 options
listed. As currently written they don't sound bad to me. For the reuse of the Babar
CsI mention that for a 1 usec decay time and a RHIC AA 100 kHz collision rate that means
10% of the events have two HI collisions. At the same time the CsI Moliere raduis of 3.8 cm
rather than 2.2 we will have 3x the occupancy.
Also is PbO4W really $5/cc produced vs $1.5/cc raw material for the W spacal? If so then
for a reasonable labor cost for the spacal production I would compare $5/cc for PbO4W
vs $3/cc for a produced spacal. Perhaps not as strong an argument. Isn't the number
really $10/cc for PbO4W and $2.5/cc for the spacal?
Section 5.3 HCal. In the paragraph that starts "The basic calorimeter concept..."
call the calorimeter design that we've chosen a "tilted-plate calorimeter". State
the tilt angles in the reference design, 32 deg for the Inner and 12 deg for the Outer.
State that they are projective.
Section 5.3.3 Outer HCal. The text should be more descriptive.
Section 5.3.4 should be titled "photosensor and readout electronics" Add more detail
LED calibration: Eric showed a figure at the EMCal review
Figure 5.3-5.7. The figures need better captions. Which are Inner and which are Outer?
Get crisper figures. Some are fuzzy.
Figure 5.11 fix the labels and combine with figure 5.15.
Section 5.5 is too long. Reduce to 5 pages. Far too much detail on the test beam work.
Write was was learned and what tests remain to be done both on the bench and
in the test beam. Remember that this is not a status report. It is a design document.
The HCal section needs a description of the mechanical analysis performed and its results.
Write more for section 5.6 alternate designs.
Chapter 6 Calorimeter Electronics: 1 paragraph "... shaped and differentially driven to
to digitizer boards located near the detector.." change to ".. located in racks near the
detector.."
Figure 6.2 add dimension of the component in the caption. You can't tell how
big it is from the picture.
Section 6.1.2 Neutron radiation Effects: This section states what was done, but it needs to
also state the conclusions from our tests. Neutrons in the MeV range are the dominant
contributor to the damage. Thermal neutrons have little contribution. The total expected
neutron fluence for two years of RHIC running is what? Where is the reference to figure 6.11?
6.2.3 Where is the slow controls and monitoring located? In the racks? Is SEU an issue?
Section 6.2.4 " "The reference design digitizer electronics for sPHENIX is based on the
digitizer system built for the PHENIX HBD and modified for the PHENIX RPC". I think
that this should be "...modified for the PHENIX MPC.." Isn't that correct?
Figure 6.11 is very important. The text should emphasize why this plot matters. The rad
damage to the SiPM doesn't change the pedestal in a significant way, only the bias
current draw.
Chapter 7 DAQ/Trigger: Paragraph 5 "..to achieve the envisioned rate.." should be
"..to achieve the expected rate.."
The section numbering needs fixing in chapter 7.
Section 7.0.9 Triggering Do we need to add a discussion of the GL1. What about
the need for a LL1 board for an EMCal energy trigger?
Section 8.4 Beam pipe. Update and correct. State that no modification to the Be section of the
existing beam pipe will be necessary.
Section 8.5 Shield wall. State that sPHENIX can fit through the existing opening in the
current shield wall with no modification.
Figure 9.2 Do we need to have a figure just showing the sPHENIX coordinates?
Perhaps it should be added to another figure.
Chapter 9 contains a lot of bulleted lists. Some lists should be written as paragraphs
where appropriate.
-
[Sphenix-hcal-l] The pCDR so far,
EdwardOBrien, 09/21/2015
- <Possible follow-up(s)>
- [Sphenix-hcal-l] The pCDR so far, EdwardOBrien, 09/21/2015
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