Presentation is loading. Please wait.

Presentation is loading. Please wait.

Detector Effects and Backgrounds In the following, I examine the following possible sources of spurious signals which could simulate the parity signal:

Published byLeo Carr Modified over 8 years ago

Similar presentations

Presentation on theme: "Detector Effects and Backgrounds In the following, I examine the following possible sources of spurious signals which could simulate the parity signal:"— Presentation transcript:

1 Detector Effects and Backgrounds In the following, I examine the following possible sources of spurious signals which could simulate the parity signal: 1)Recentering as the sole “corrector” of detector inefficiencies. 2)The effect of resonances in producing a spurious signal. 3) The effects of jets in producing a spurious parity signal.

2 Detector Effects and Backgrounds (Cont’d) To anticipate the result, we find that these effects are not likely to have produced a spurious signal. We will also present results from a variety of simulation programs (HIJING,URQMD,AMPT,MEVSYM,PYTHIA) while none of these fully describe the data on HI heavy ion collisions, we look to them for possible clues to how a spurious signal might be produced. We do not find that they reproduce the observations.

3 Recentering Although recentering has been used in the flow analysis and has theoretically been shown to be adequate for the correction of the correlation function. We recognize that the observed correlation function is small (~10 -5 ) and we wanted a more complete check of its function.

4 Simulation re:acceptance effects Use basic simulation with p T, v 2 vs n ch roughly matched to data. Add efficiency for +,- vs. φ,p T parameterized from data (also make deliberately much worse) Look at effect of acceptance on correlator before and after centering of Q-vector. Pt>0.15 Pt>1

5 Sample Results-with 50% sector 2 efficiency Before centering After centering x10 -3

6 Resonances Simple kinematic studies show it is very hard to get ++,-- signal without turning v 2 negative. To check contribution from known resonances, we’ve run MEVSIM with roughly experimental particle distributions (including resonances) and v2, and then again with 10x resonances.

7 The Effects of Jets Basic approach is to use the extensive STAR data to estimate the effects. STAR has observed jets with leading particles with P t as low as 3 GeV/c, and measured their rate (yield). In addition STAR has also measured their production relative to the reaction plane. Finally, STAR has measured jets in p-p collisions at high P t. This data can be used to set an upper limit on the effects of jets.

8 Jet contribution estimate Yield #low p T associated particles(~20) Average (reaction plane independent) correlation v2v2 in-plane  S =0out-of-plane  S =90 o A. Feng, QM ‘08 PRL 95,152301 PRL 91,172302 p+p jet patch trigger data, looping only over ‘jet’ particles

9 The Effects of Jets We can calculate an upper limit on the effect of jets by taking the two body correlation measured with jets from p-p, at large P t, (~10 GeV/c, from jet patch triggers) as follows: Taking.1 as the p-p correlation, 300 particles as the average number of tracks for the midcentral events which have the signal, and v 2 =.3 we get, for the jets with >4 GeV/c leading particles

10 Summary It seems very unlikely that detector effects or resonance or jet backgrounds can produce a spurious effect that mimics the parity signal. “Standard” simulation programs also do not predict the signal, although it would be good to have improved statistics (which we will).

11 Au-Au (and p+p) event generator studies Result: no generator we’ve looked at matches cos(phi1+phi2) or cos(phi1-phi2) correlations (note: same and opposite sign correlations typically very similar in these models). AMPT shows some resemblance and probably bears further study. +- ++ -- Data (no error bars) for +- ++ and --

12 Summary (Cont’d) There are other phenomena which we should understand better. One is the effect of V 1 fluctuations (probably much too small). Another is the question of “minijets”. If there are many small (few hundred MeV) type of jets, perhaps that could produce a fake signal. Each one would have rather small angular correlation between its particles but there may be enough of them to make a fake signal. As there is no extant model for these we cannot at this time estimate their effect if indeed they do exist. Interestingly, there is a possibility that they are a manifestation of the parity effect!

13 Summary (Cont’d) The future: More analysis of the data (run 7 with many more events), More facets of the data to be studied to better identify the Chiral Magnetic effect, etc. What would be most helpful would be additional theoretical analysis of just how the effect would manifest itself in realistic HI collisions. One of the reasons for wanting to publish the results to date is to inspire such further theoretical work.

Download ppt "Detector Effects and Backgrounds In the following, I examine the following possible sources of spurious signals which could simulate the parity signal:"

Similar presentations

Inclusive jet cross-sections and correlations in Au+Au and p+p collisions at sqrt(s NN ) = 200 GeV Mateusz Ploskon For the STAR Collaboration.

Inclusive jet cross-sections and correlations in Au+Au and p+p collisions at sqrt(s NN ) = 200 GeV Mateusz Ploskon For the STAR Collaboration.
Spontaneous Parity Violation in Strong Interactions Dhevan Gangadharan (UCLA) On behalf of the STAR Collaboration WWND 2009 1.

Spontaneous Parity Violation in Strong Interactions Dhevan Gangadharan (UCLA) On behalf of the STAR Collaboration WWND
Measurements of long-range angular correlation and identified particle v 2 in 200 GeV d+Au collisions from PHENIX Shengli Huang Vanderbilt University for.

Measurements of long-range angular correlation and identified particle v 2 in 200 GeV d+Au collisions from PHENIX Shengli Huang Vanderbilt University for.
Direct virtual photon production in Au+Au collision at 200 GeV at STAR Bingchu Huang for the STAR collaboration Brookhaven National Laboratory Aug 21 2014.

Direct virtual photon production in Au+Au collision at 200 GeV at STAR Bingchu Huang for the STAR collaboration Brookhaven National Laboratory Aug
1 How to measure flow and the reaction plane? N. N. Ajitanand Nuclear Chemistry, SUNY, Stony Brook.

1 How to measure flow and the reaction plane? N. N. Ajitanand Nuclear Chemistry, SUNY, Stony Brook.
1 Measurement of phi and Misaki Ouchida f or the PHENIX Collaboration Hiroshima University What is expected? Hadron suppression C.S.R.

1 Measurement of phi and Misaki Ouchida f or the PHENIX Collaboration Hiroshima University What is expected? Hadron suppression C.S.R.
Ali Hanks - APS 2008 1 Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.

Ali Hanks - APS Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.
4/23/06 Ali Hanks - APS 1 A method for directly measuring bremsstrahlung photons from jets Ali Hanks APS Conference April 23, 2006.

4/23/06 Ali Hanks - APS 1 A method for directly measuring bremsstrahlung photons from jets Ali Hanks APS Conference April 23, 2006.
- How can Net-Charge Fluctuations be used as a signal of a Quark- Gluon Plasma (QGP) phase transition? - Definition of a simple fluctuation measure, some.

- How can Net-Charge Fluctuations be used as a signal of a Quark- Gluon Plasma (QGP) phase transition? - Definition of a simple fluctuation measure, some.
10/20/06 Hard/Photon Analysis Fest 1 Measuring bremsstrahlung photons in pp collisions (update) Ali Hanks Group Meeting Oct. 16, 2006.

10/20/06 Hard/Photon Analysis Fest 1 Measuring bremsstrahlung photons in pp collisions (update) Ali Hanks Group Meeting Oct. 16, 2006.
Feb 2007 Big Sky, Montana Nuclear Dynamics 2007 Conference Is There A Mach Cone? For the STAR Collaboration Claude Pruneau Motivations/Goals Expectations/Models.

Feb 2007 Big Sky, Montana Nuclear Dynamics 2007 Conference Is There A Mach Cone? For the STAR Collaboration Claude Pruneau Motivations/Goals Expectations/Models.
Gang Wang (WWND2010)1 Search for local parity violation with STAR ZDC-SMD Gang Wang (UCLA) for STAR Collaboration.

Gang Wang (WWND2010)1 Search for local parity violation with STAR ZDC-SMD Gang Wang (UCLA) for STAR Collaboration.
12-17 February 2007 Winter Workshop on Nuclear Dynamics STAR identified particle measurements at large transverse momenta in Cu+Cu collisions at RHIC Richard.

12-17 February 2007 Winter Workshop on Nuclear Dynamics STAR identified particle measurements at large transverse momenta in Cu+Cu collisions at RHIC Richard.
9/15/06Ali Hanks1 Measuring bremsstrahlung photons in sqrt(s)=200 GeV pp collisions Ali Hanks Hard/Photon analysis fest September 15, 2006.

9/15/06Ali Hanks1 Measuring bremsstrahlung photons in sqrt(s)=200 GeV pp collisions Ali Hanks Hard/Photon analysis fest September 15, 2006.
Interaction between jets and dense medium in heavy-ion collisions Rudolph C. Hwa University of Oregon TsingHua University, Beijing, China May 4, 2009.

Interaction between jets and dense medium in heavy-ion collisions Rudolph C. Hwa University of Oregon TsingHua University, Beijing, China May 4, 2009.
Charge Asymmetry Correlations Searching for Local Parity Violation Quan Wang, Purdue For STAR Collaboration.

Charge Asymmetry Correlations Searching for Local Parity Violation Quan Wang, Purdue For STAR Collaboration.
Measurement of Charge Asymmetry Correlations in Heavy Ion Collisions Quan Wang, Purdue For STAR Collaboration 111/4/2010DNP 2010.

Measurement of Charge Asymmetry Correlations in Heavy Ion Collisions Quan Wang, Purdue For STAR Collaboration 111/4/2010DNP 2010.
Sourav Tarafdar Banaras Hindu University For the PHENIX Collaboration Hard Probes 2012 Measurement of electrons from Heavy Quarks at PHENIX.

Sourav Tarafdar Banaras Hindu University For the PHENIX Collaboration Hard Probes 2012 Measurement of electrons from Heavy Quarks at PHENIX.
Υ Measurements at PHENIX Shawn Whitaker RHIC/AGS Users’ Meeting June 20, 2011 6/20/20111Shawn Whitaker - RHIC/AGS Users Meeting.

Υ Measurements at PHENIX Shawn Whitaker RHIC/AGS Users’ Meeting June 20, /20/20111Shawn Whitaker - RHIC/AGS Users Meeting.
Two particle correlations with respect to higher harmonic plane in Au+Au 200 GeV collisions at RHIC-PHENIX Takahito Todoroki for the PHENIX Collaboration.

Two particle correlations with respect to higher harmonic plane in Au+Au 200 GeV collisions at RHIC-PHENIX Takahito Todoroki for the PHENIX Collaboration.

Similar presentations

Ads by Google