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Subject: sPHENIX Event Plane Detector discussion
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Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan)
- From: Ejiro Umaka <ejironaomiumaka AT gmail.com>
- To: Jamie Nagle <jamie.nagle AT colorado.edu>
- Cc: sphenix-sepd-l AT lists.bnl.gov, pinkenburg <pinkenburg AT bnl.gov>
- Subject: Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan)
- Date: Thu, 15 Dec 2022 10:17:34 -0500
Hi Jamie,
Here are some or all of the EPD information you requested (let me know if something is missing).
The plot of the MIP distribution and the occupancy distributions as a function of centrality can be found here:
A text file of the list of percentages for the16 different tiles going outward is here:
The source code used to pull this information is here:
The macro to run this is here:
The rootfile is here:
//sphenix/user/eumaka/sPHENIX/EPD/62run
Best regards,
Ejiro
On Thu, Dec 8, 2022 at 10:08 PM Rosi Reed <rosijreed AT lehigh.edu> wrote:
Hi Jamie and everyone,I'm not sure how helpful this will be, but I have some data on this from the brief 200 GeV AuAu run done by STAR - this was essentially minbias triggered. The MIP peaks were pegged to 160 ADC, so this doesn't quite reach 40%, but gets close and there was no evidence of a drastic change. I can dig through my computer to try to generate it further if there is interest. (The label should be Run 19, but it is indeed 200 GeV.) There is zero suppression for ADC < 4. The material budget shouldn't be completely different in this case.RosiOn Thu, Dec 8, 2022 at 6:26 PM Ejiro Umaka <ejironaomiumaka AT gmail.com> wrote:Hi Jamie,Thanks! Chris has informed me that our newest mdc2 sample (run 62, type 4: min bias Hijing with 50kHz pileup) has 2.5M events available for this study. I'll keep you posted.Thanks,Ejiro_______________________________________________On Thu, Dec 8, 2022 at 5:32 PM Jamie Nagle <jamie.nagle AT colorado.edu> wrote:Hello Ejiro,Yes, exactly. I was not sure if the geometry / response is the same as when that study was done. Also, as you correctly not, having the exact Minimum Bias value for all 15 rings would be best.For the most central events 0-10%, the occupancy is essentially 100% in all rings (as you noted on slide 4).Sincerely,Jamie||------------------------------------------------------------------------------------------
|| James L. Nagle
|| Professor of Physics, University of Colorado Boulder|| EMAIL: jamie.nagle AT colorado.edu
|| SKYPE: jamie-nagle
|| WEB: http://spot.colorado.edu/~naglej
||------------------------------------------------------------------------------------------On Thu, Dec 8, 2022 at 10:41 AM Ejiro Umaka <ejironaomiumaka AT gmail.com> wrote:Hi Jamie,
Thanks for your question. Looking through past studies, I noticed that you had done something close to this in the past (https://indico.bnl.gov/event/12501/contributions/52473/attachments/36192/59403/nagle_sepd_occupancystudy.pdf)
In particular, slide 4, middle plot (although it is a slightly different cut on the energy deposit/MIP distribution). Are you asking to do the same with a cut of (0.4* MIP) for a tile in the different 16 rings and retrieve an estimate of how many times hits fall beyond this cut? (The reverse (zero hits) can be inferred from the same estimate).
Thanks,Ejiro
On Thu, Dec 8, 2022 at 10:29 AM Jamie Nagle <jamie.nagle AT colorado.edu> wrote:
Hello Ejiro and Brennan (cc to the sepd list),_______________________________________________
Dan and I are going through the mapping of ADC boards into groups with XMIT transmitter boards. In order to optimize the limited number of boards, it would be very helpful to have hit information from simulation for the sEPD. Ideally, depending on radiation damage over time to the SiPMs, we would like to zero suppress below the single particle hit level (MIP).
For Au+Au minimum bias collisions, can you provide a percentage for tiles for when they have >= 1 particle hit (based on cutting at 0.4 * MIP) and hence the percentage of the time a tile has zero hits.Since this percentage will only vary radially, one can just have a list of percentages for the 16 different tiles going outward.
Thanks in advance,
Jamie
||------------------------------------------------------------------------------------------
|| James L. Nagle
|| Professor of Physics, University of Colorado Boulder|| EMAIL: jamie.nagle AT colorado.edu
|| SKYPE: jamie-nagle
|| WEB: http://spot.colorado.edu/~naglej
||------------------------------------------------------------------------------------------
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[sphenix-sepd-l] Request for simulation information (Ejiro, Brennan),
Jamie Nagle, 12/08/2022
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Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan),
Ejiro Umaka, 12/08/2022
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Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan),
Rosi Reed, 12/08/2022
- Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan), Ejiro Umaka, 12/15/2022
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- Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan), Jamie Nagle, 12/19/2022
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Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan),
Rosi Reed, 12/08/2022
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Re: [sphenix-sepd-l] Request for simulation information (Ejiro, Brennan),
Ejiro Umaka, 12/08/2022
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