STAR HardProbes PWG

["Ma, Rongrong" <marr AT bnl.gov>]

Hello Barbara

Thanks for the note. 

As I had to leave early, I do not know if you had a chance to discuss the tracking efficiency uncertainty. According to the BES-II net-proton analysis note (https://drupal.star.bnl.gov/STAR/system/files/Note_ana_netp_BESII_tmp.pdf), the following track quality cuts are used: nHitsFit > 20, DCA < 1 cm. There are no cuts on nHitsDedx. The quoted uncertainty on tracking efficiency is 2%. Is this the official number now? Since this paper is going to be submitted very soon, it will be good to make sure everyone is on the same ground. To that end, is it possible that some official guidances on the tracking efficiency uncertainties for different track quality cuts can be released?

Thanks. 

Best

Rongrong 

On Nov 8, 2024, at 11:18 AM, Barbara Trzeciak <barbara.trzeciak AT gmail.com> wrote:

Date: 11/08/2024

Participants: 

Wei Zhang, Rongrong Ma, Kaifeng Shen, Shuai Yang, Hanna Zbroszczyk, Nu Xu, Zaochen Ye, Zebo Tang, Qian Yang, Richard Seto, Yue Hang Leung, Jae Nam, Xiaoxuan Chu, Guannan Xie, Isaac Mooney, ShinIchi Esumi, Subhash Singha, (Tommy) Chun Yuen Tsang, Sooraj Radhakrishnan, Barbara Trzeciak

Title: Measurement of J/ψ production in Au + Au collisions at 14.6, 17.3, 19.6 and 27 GeV with the STAR experiment

PAs: Rongrong Ma, Kaifeng Shen, Zebo Tang, Shuai Yang, Zaochen Ye, Wangmei Zha, Wei Zhang 

Target journal: PLB

Proposal page: https://drupal.star.bnl.gov/STAR/blog/weizhang/Measurement-J%CF%88-production-AuAu-collisions-sqrtsNN-146-173-196-and-27GeV-STAR-experimen

Presentation: https://drupal.star.bnl.gov/STAR/system/files/PWGC_Preview_BESII_Jpsi_1.pdf

The PWGC panel previewed a paper proposal from HP PWG. The panel found that the analysis is mature and results are important and interesting, and the paper should move forward. The journal choice was also found to be appropriate. The following points were discussed.

Q: Why you stop at 14.6 GeV when you go down in beam energy, are you limited by statistics?

A: Yes, there is no significant J/psi peak.

Q: Do you have systematic unc. associated with the p+p baseline?

A: Yes, we have. It’s based on the cited paper. 

Q: Slide 13, why you don’t have the highest pT point for 17.3 GeV? And why the two other points fall very close to 14.6 GeV.

A: We have only two data points for 17.3 GeV, due to limited statistics. And it’s a log scale, but we can check the yield extraction in these two energies. 

Q: Why you have N_coll uncertainties, not N_part?

A: It’s in the R_AA calculation. And N_part is on the x-axis

Q: Do we have model calculations for pT dependence? Because CNM can be higher at lower energies. 

A: Not for the lower energies. 

Q: What are CNM effects here? Are there existing pA data at these energies from other experiments from SPS or Fermilab?

A: There are SPS data, but results are not conclusive. In SPS they use Drell-Yan as a reference, and they measure modification as a system size. We can have closer look at the existing results but interpretation is not straightforward.  

Q: Fig.5: what is the dominant source of sys. unc.?

A: They include Au+Au and p+p uncertainties; p+p uncertainties dominate and the tracking efficiency unc. We can also check less strict DCA cut that should reduce the tracking uncertainty. 

Q: Fig.5: why do you use different symbols for the previous RHIC results, are these STAR results?

A: 54.4 GeV results are not published yet, and the other Au+Au results are published. 

Q: Fig.4.: can you see a step, as seen at SPS, if you go in more fine N_part binning?

A: We haven’t tried more fine centrality binning, we can try for the two higher energies. 

Q: Fig.2,3: It would be good to include other energies that we have.

A: We will try to add.

Q: Fig.3: what is R_AA’?

A: It’s because at lower energies there are no p+p data.

Q: Suggestion is not to do this, just state it in the figure’s caption.

Q: Fig.4: add more N_part numbers.

A: We will do.

Q: Are the bands around 1 in Fig. 4 included in Fig. 5?

A: Yes, everything is included. 

Q: Fig.5: suggest to remove collision energies from the legend.

A: We will do.

Q: Fig. 5: 0-20% covers up to which energy?

A: Up to 200 GeV.

Q: Considering all the unc. can we say that the model underpredicts the data?

A: We have in mind only the lower energies. But we can calculate how many sigma away the model is. 

Q: Are there CNM effects included in the model?

A: They should be included in primordial curve.

Q: Fig. 7: do we know what are the rapidity distributions, does the result depends on this extrapolation?

A: It is carefully checked in the cited paper.