Presentation is loading. Please wait.

Presentation is loading. Please wait.

Increasing Field Integral between Velo and TT S. Blusk Sept 02, 2009 SU Group Meeting.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Increasing Field Integral between Velo and TT S. Blusk Sept 02, 2009 SU Group Meeting."— Presentation transcript:

1 Increasing Field Integral between Velo and TT S. Blusk Sept 02, 2009 SU Group Meeting

2 Introduction Recall, for the Upgrade, we will read out the full detector at 40 MHz. Need to quickly reject uninteresting events and select B events. –MinBias:B event ~ 200:1, but can exploit: “Large” B mass  large q 2  B tracks have larger pT, on average Tracks from Min Bias events peak at lower pT, but do have tails out to larger pT. –Exploit in trigger by requiring N tracks at “high” pT. (cut value to be tuned, but roughly expect ~ 1-2 GeV) –Also, require that they do not point back to one of the primary interactions. (only want to do this check for a small subset of the tracks) –Goal: To use TT to get a quick estimate of each particle’s pT. Aim for 10% resolution, in reNeed sufficient

3 TT in LHCb  Four layers of silicon  X1, U(+5 o ), V(-5 o ), X2  ~200 um pitch:  hit ~50  m

4 A view from inside the magnet TT Beampipe (10 mrad) BellowsFlanges IT-1 OT1

5 Efficiency “Turn on” for p T >1 GeV vs p T resolution  1/p / (1/p) = 10%  1/p / (1/p) = 20%  1/p / (1/p) = 30% E.g:  With ~10% resolution in 1/p T, almost no tracks with p T <0.7-0.8 GeV would pass trigger.  With 30% resolution, ~6-7% of tracks at p T <0.5 GeV would be accepted. 67% have p T <0.5 GeV 91% have pT<1 GeV 96% have pT<1.5 GeV Min Bias at 5 TeV

6 Efficiency “Turn on” for pT>1.5 GeV vs pT resolution E.g:  With ~10% resolution in 1/p T, almost no tracks with p T <1.0 GeV would pass trigger.  With 30% resolution, ~2% of tracks at p T <0.5 GeV would be accepted.

7 Momentum Resolution for VeloTT tracks Run Standard MC (5 TeV) Form VeloTT tracks from ALL VELO-3D tracks –Default would only make VeloTT tracks with VELO 3D tracks that don’t make long tracks Shift Magnetic Field upstream by 50 cm and do the same. –Puts more field integral between Velo & TT We do the Kalman Track Fit –Assume that track fit can be done relatively fast, ala the current HLT2 scheme with parameterized material description.

8 Comparison of p T Resolutions For comparison, long tracks have a resolution of 0.5% By shifting the field by ~50 cm upstream, we get about a factor of 2 improvement in pT resolution.  10% resolution attainable by moving the magnet…

9 Issues If we were to move the magnet upstream, might lose some acceptance on outer edges –TT would be more “inside the magnet” –I think we can get adequate coverage though –If you’ve seen a silicon detector inserted into the bore of CDF, CLEO… you know what “tight space” means!

10 Summary Reduce pT uncertainty by ~ 2X by moving magnet 50 cm upstream Other things to do: –Remove RICH-1 from “default” and “shifted” –Simulation at – 25 cm –Look at rejection power after pT cuts and IP cuts at different luminosities. –…

Download ppt "Increasing Field Integral between Velo and TT S. Blusk Sept 02, 2009 SU Group Meeting."

Similar presentations

LHCb Alignment 12 th April 2007 S. Viret Coseners Forum « LHC Startup » 1. Introduction 2. The alignment challenge 3. Conclusions.

LHCb Alignment 12 th April 2007 S. Viret Coseners Forum « LHC Startup » 1. Introduction 2. The alignment challenge 3. Conclusions.
Impact parameter studies with early data from ATLAS

Impact parameter studies with early data from ATLAS
STAR Status of J/  Trigger Simulations for d+Au Running Trigger Board Meeting Dec5, 2002 MC & TU.

STAR Status of J/  Trigger Simulations for d+Au Running Trigger Board Meeting Dec5, 2002 MC & TU.
Track Trigger Designs for Phase II Ulrich Heintz (Brown University) for U.H., M. Narain (Brown U) M. Johnson, R. Lipton (Fermilab) E. Hazen, S.X. Wu, (Boston.

Track Trigger Designs for Phase II Ulrich Heintz (Brown University) for U.H., M. Narain (Brown U) M. Johnson, R. Lipton (Fermilab) E. Hazen, S.X. Wu, (Boston.
Search for Narrow Resonance Decaying to Muon Pairs in 2.3 fb -1 Chris Hays 1, Ashutosh Kotwal 2, Ye Li 3, Oliver Stelzer-Chilton 1 1 Oxford University.

Search for Narrow Resonance Decaying to Muon Pairs in 2.3 fb -1 Chris Hays 1, Ashutosh Kotwal 2, Ye Li 3, Oliver Stelzer-Chilton 1 1 Oxford University.
LHCb PatVeloTT Performance Adam Webber. Why Upgrade?  Currently we de-focus the beams o LHCb Luminosity ~ 2x10 32 cm -2 s -1 o ~ 1 interaction per bunch.

LHCb PatVeloTT Performance Adam Webber. Why Upgrade?  Currently we de-focus the beams o LHCb Luminosity ~ 2x10 32 cm -2 s -1 o ~ 1 interaction per bunch.
7 Nov 2002Niels Tuning - Vertex 20021 A vertex trigger for LHCb The trigger for LHCb ….. and the use of the Si vertex detector at the first and second.

7 Nov 2002Niels Tuning - Vertex A vertex trigger for LHCb The trigger for LHCb ….. and the use of the Si vertex detector at the first and second.
27 th June 2008Johannes Albrecht, BEACH 2008 Johannes Albrecht Physikalisches Institut Universität Heidelberg on behalf of the LHCb Collaboration The LHCb.

27 th June 2008Johannes Albrecht, BEACH 2008 Johannes Albrecht Physikalisches Institut Universität Heidelberg on behalf of the LHCb Collaboration The LHCb.
1 G4MICE studies of PID transverse acceptance MICE video conference 2006-05-24 Rikard Sandström.

1 G4MICE studies of PID transverse acceptance MICE video conference Rikard Sandström.
1 Measurement of f D + via D +   + Sheldon Stone, Syracuse University  D o D o, D o  K -  + K-K- K+K+ ++  K-K- K+K+ “I charm you, by my once-commended.

1 Measurement of f D + via D +   + Sheldon Stone, Syracuse University  D o D o, D o  K -  + K-K- K+K+ ++  K-K- K+K+ “I charm you, by my once-commended.
Status of  b Scan Jianchun Wang Syracuse University Representing L b scanners CLEO Meeting 05/11/02.

Status of  b Scan Jianchun Wang Syracuse University Representing L b scanners CLEO Meeting 05/11/02.
Steven Blusk, Syracuse University -- 1 Update on Global Alignment Steven Blusk Syracuse University.

Steven Blusk, Syracuse University -- 1 Update on Global Alignment Steven Blusk Syracuse University.
ALICE HLT High Speed Tracking and Vertexing Real-Time 2010 Conference Lisboa, May 25, 2010 Sergey Gorbunov 1,2 1 Frankfurt Institute for Advanced Studies,

ALICE HLT High Speed Tracking and Vertexing Real-Time 2010 Conference Lisboa, May 25, 2010 Sergey Gorbunov 1,2 1 Frankfurt Institute for Advanced Studies,
(Roughly) Bending Effects of Magnetic Field in VELO & TT S. Blusk June 17, 2009.

(Roughly) Bending Effects of Magnetic Field in VELO & TT S. Blusk June 17, 2009.
MC Study on B°  J/  ° With J/      °     Jianchun Wang Syracuse University BTeV meeting 03/04/01.

MC Study on B°  J/  ° With J/      °     Jianchun Wang Syracuse University BTeV meeting 03/04/01.
Velo to T Alignment - Reminder General Strategy  Perform relative VELO-to-IT/OT alignment using  X,  Y at the center of magnet and  X,  Y (each.

Velo to T Alignment - Reminder General Strategy  Perform relative VELO-to-IT/OT alignment using  X,  Y at the center of magnet and  X,  Y (each.
The SLHC and the Challenges of the CMS Upgrade William Ferguson First year seminar March 2 nd 2010 1.

The SLHC and the Challenges of the CMS Upgrade William Ferguson First year seminar March 2 nd
BEACH Conference 2006 Leah Welty Indiana University BEACH 2006 7/7/06.

BEACH Conference 2006 Leah Welty Indiana University BEACH /7/06.
HPS Test Run Setup Takashi Maruyama SLAC Heavy Photon Search Collaboration Meeting Thomas Jefferson National Accelerator Facility, May 26-27, 2011 1.

HPS Test Run Setup Takashi Maruyama SLAC Heavy Photon Search Collaboration Meeting Thomas Jefferson National Accelerator Facility, May 26-27,
1 Track reconstruction and physics analysis in LHCb Outline Introduction to the LHCb experiment Track reconstruction → finding and fitting Physics analysis.

1 Track reconstruction and physics analysis in LHCb Outline Introduction to the LHCb experiment Track reconstruction → finding and fitting Physics analysis.

Similar presentations

Ads by Google