Presentation is loading. Please wait.

Presentation is loading. Please wait.

Monday, January 24 TimeTitleSpeaker 10:00 – 10:30The CBM experimentV. Friese (GSI) 10:30 – 11:00CBM Silicon Pixel Vertex DetectorM. Deveaux (GSI/IReS)

Published byMelvyn Cole Modified over 8 years ago

Similar presentations

Presentation on theme: "Monday, January 24 TimeTitleSpeaker 10:00 – 10:30The CBM experimentV. Friese (GSI) 10:30 – 11:00CBM Silicon Pixel Vertex DetectorM. Deveaux (GSI/IReS)"— Presentation transcript:

1 Monday, January 24 TimeTitleSpeaker 10:00 – 10:30The CBM experimentV. Friese (GSI) 10:30 – 11:00CBM Silicon Pixel Vertex DetectorM. Deveaux (GSI/IReS) 11:00 – 12:30CBM Silicon Strip TrackerV. Saveliev (DESY/Obninsk) 12:30 – 14:00Lunch 14:00 – 15:00Robust and adaptive methods for track and vertex reconstruction R. Frühwirth (Wien) 15:00 – 15:30Silicon Tracking at WA97 and NA57A. Jacholkowski (CERN) 15:30 – 16:00Silicon Tracking at NA60J. Heuser (GSI) 16:30 – 17:00Break 17:00 – 17:20Track finding with Hough transformJ. Gläß (Mannheim) 17:20 – 17:40Track finding with cellular automatonI. Kisel (KIP Heidelberg) 17:40 – 18:00Track finding with conformal mappingO. Rogachevsky (JINR) 18:00 – 18:20Track finding with 3D track following method G. Ossoskov (JINR) 18:20 – 19:00Discussion on track finding 19:00Buffet CBM Tracking Workshop January 24 - 25, 2005 GSI Theory Seminar Room Preliminary Program

2 Tuesday, January 25 TimeTitleSpeaker 9:00 – 9:20Track fitting with polynomial approximationA. Ierusalimov (JINR) 9:20 – 9:40High accuracy momentum reconstruction with orthogonal polynomial sets E. Akishina (JINR) 9:40 – 10:00Momentum reconstruction based on the equation of motion P. Akishin (JINR) 10:00 – 10:20Track fitting with Kalman filterS.Baginyan (JINR) 10:20 – 10:40Track fitting with Kalman filterS. Gorbunov (DESY) 10:40 – 11:00Vertex fitting with Kalman filterI. Kisel (KIP Heidelberg) 11:00 – 11:30Break 11:30 – 12:00The CBM RICH DetectorC. Höhne (GSI) 12:00 – 12:20RICH Ring finding with Hough transformB. Kostenko (JINR) 12:20 – 12:40RICH Ring finding with elastic netI. Kisel (KIP Heidelberg) 12:40 – 14:00Lunch 14:00General discussion

3 Track reconstruction in CBM Up to now (Status Report):  track reconstruction based on smeared space points (no fake hits in strip detectors, no pileup in MAPS)  no tracking available in framework  no hit producer (digitizer) available in framework

4 Activities during tracking week: 1. Implementation of algorithms into framework: conformal mapping (track finding) polynomial approx (track and momentum fitting) Kalman filter (track fitting) ( ) 2. Implementation of hit producer into framework: Strip detector geometry ( ) MAPS ( ) 3. Launching of joint tracking activities R.Frühwirth/I.Kisel (deterministic annealing filter) G. Ososkov/O.Rogachevsky (conformal mapping+Hough transform) 4. Benchmarking of tracking/vertexing algorithms: D-meson reconstruction (track fitting in magnetic field) (other candidates: J/ψ and (multistrange) Hyperon reconstruction) common performance routines (efficiency, resolution, etc)

5 Activities in February/March 2005: 1. Implementation of algorithms into framework: Track finding with cellular automaton, vertexing: I. Kisel, S. Gorbunov, E. Kryshen Track finding with Hough transform: J. Gläß, Track fitting, momentum reconstruction: E. Litvinenko conformal mapping+Hough transform: G. Ososkov, O.Rogachevsky 2. Production of realistic hit patterns (responsible ?): MAPS pileup (10, 25, 50, 100 min. bias events) Strip detectors with fake hits 3. Realistic geometries in GEANT (responsible?) Dipole magnet position, geometry for Alligator dipole, RICH position, thickness of Pixel (200 μm) and Strip (300 μm), 3. STS Station as Strip ?........ 4. Cherenkov ring recognition Implementation of conformal mapping + Hough transform: E. Litvinenko Implementation of elastic net into framework: I. Kisel

6 Activities based on tracking in 2005: 1. Reconstruction of low momentum electrons lower magnetic field, target out of magnetic field....: Krakow group, T. Galatyuk 2. Electron identification with RICH recognition of rings and tracks matching of rings with tracks : C. Höhne, B. Kostenko 3. Tracking of muons through absorber vector meson measurement via muon pairs: A. Kiseleva 4. D-meson reconstruction neutral D mesons, charged D-mesons, required Pixel performance: Y. Vassiliev 5. Full CBM track reconstruction Hit producer for TRD and RPC (incl. correct material): M. Kalisky (for TRD), Track matching: O.Rogachevsky, 6. Hyperon reconstruction Lambda, Xi, and Omega measurements: E. Kryshen

Download ppt "Monday, January 24 TimeTitleSpeaker 10:00 – 10:30The CBM experimentV. Friese (GSI) 10:30 – 11:00CBM Silicon Pixel Vertex DetectorM. Deveaux (GSI/IReS)"

Similar presentations

DEVELOPMENT OF ONLINE EVENT SELECTION IN CBM DEVELOPMENT OF ONLINE EVENT SELECTION IN CBM I. Kisel (for CBM Collaboration) I. Kisel (for CBM Collaboration)

DEVELOPMENT OF ONLINE EVENT SELECTION IN CBM DEVELOPMENT OF ONLINE EVENT SELECTION IN CBM I. Kisel (for CBM Collaboration) I. Kisel (for CBM Collaboration)
CBM meeting, Dubna 2008/10/14 L1 CA Track Finder Status Ivan Kisel (KIP, Uni-Heidelberg), Irina Rostovtseva (ITEP Moscow) Study of L1 CA track finder with.

CBM meeting, Dubna 2008/10/14 L1 CA Track Finder Status Ivan Kisel (KIP, Uni-Heidelberg), Irina Rostovtseva (ITEP Moscow) Study of L1 CA track finder with.
Simulation Studies of a (DEPFET) Vertex Detector for SuperBelle Ariane Frey, Max-Planck-Institut für Physik München Contents: Software framework Simulation.

Simulation Studies of a (DEPFET) Vertex Detector for SuperBelle Ariane Frey, Max-Planck-Institut für Physik München Contents: Software framework Simulation.
Silicon Tracker for CBM Walter F.J. Müller, GSI, Darmstadt for the CBM Collaboration Topical Workshop: Advanced Instrumentation for Future Accelerator.

Silicon Tracker for CBM Walter F.J. Müller, GSI, Darmstadt for the CBM Collaboration Topical Workshop: Advanced Instrumentation for Future Accelerator.
STS Simulations Anna Kotynia 15 th CBM Collaboration Meeting April 12 - 16, 2010, GSI 1.

STS Simulations Anna Kotynia 15 th CBM Collaboration Meeting April , 2010, GSI 1.
Vector meson study for the CBM experiment at FAIR/GSI Anna Kiseleva GSI Germany, PNPI Russia   Motivation   The muon detection system of CBM   Vector.

Vector meson study for the CBM experiment at FAIR/GSI Anna Kiseleva GSI Germany, PNPI Russia   Motivation   The muon detection system of CBM   Vector.
KIP TRACKING IN MAGNETIC FIELD BASED ON THE CELLULAR AUTOMATON METHOD TRACKING IN MAGNETIC FIELD BASED ON THE CELLULAR AUTOMATON METHOD Ivan Kisel KIP,

KIP TRACKING IN MAGNETIC FIELD BASED ON THE CELLULAR AUTOMATON METHOD TRACKING IN MAGNETIC FIELD BASED ON THE CELLULAR AUTOMATON METHOD Ivan Kisel KIP,
Online Track Reconstruction in the CBM Experiment I. Kisel, I. Kulakov, I. Rostovtseva, M. Zyzak (for the CBM Collaboration) I. Kisel, I. Kulakov, I. Rostovtseva,

Online Track Reconstruction in the CBM Experiment I. Kisel, I. Kulakov, I. Rostovtseva, M. Zyzak (for the CBM Collaboration) I. Kisel, I. Kulakov, I. Rostovtseva,
C B M Di-electron background studies and first results using compact RICH CBM Collaboration Meeting, 27 September 2007, Dresden Di-electron background.

C B M Di-electron background studies and first results using compact RICH CBM Collaboration Meeting, 27 September 2007, Dresden Di-electron background.
INTRODUCTION One of the major experimental challenges of the Compressed Baryonic Matter (CBM) experiment is the measurement of the D-meson hadronic decay.

INTRODUCTION One of the major experimental challenges of the Compressed Baryonic Matter (CBM) experiment is the measurement of the D-meson hadronic decay.
1 J.M. Heuser et al. CBM Silicon Tracker Requirements for the Silicon Tracking System of CBM Johann M. Heuser, M. Deveaux (GSI) C. Müntz, J. Stroth (University.

1 J.M. Heuser et al. CBM Silicon Tracker Requirements for the Silicon Tracking System of CBM Johann M. Heuser, M. Deveaux (GSI) C. Müntz, J. Stroth (University.
Many-Core Scalability of the Online Event Reconstruction in the CBM Experiment Ivan Kisel GSI, Germany (for the CBM Collaboration) CHEP-2010 Taipei, October.

Many-Core Scalability of the Online Event Reconstruction in the CBM Experiment Ivan Kisel GSI, Germany (for the CBM Collaboration) CHEP-2010 Taipei, October.
06.10.2004CBM Collaboration Meeting 1 Simulation Status V. Friese.

CBM Collaboration Meeting 1 Simulation Status V. Friese.
1 Compressed Baryonic Matter at FAIR:JINR participation Hadron Structure 15, 29 th June- 3 th July, 2015 P. Kurilkin on behalf of CBM JINR group VBLHEP,

1 Compressed Baryonic Matter at FAIR:JINR participation Hadron Structure 15, 29 th June- 3 th July, 2015 P. Kurilkin on behalf of CBM JINR group VBLHEP,
Elastic Neural Net for standalone RICH ring finding Sergey Gorbunov Ivan Kisel DESY, Zeuthen KIP, Uni-Heidelberg DESY, Zeuthen KIP, Uni-Heidelberg KIP.

Elastic Neural Net for standalone RICH ring finding Sergey Gorbunov Ivan Kisel DESY, Zeuthen KIP, Uni-Heidelberg DESY, Zeuthen KIP, Uni-Heidelberg KIP.
Speed-up of the ring recognition algorithm Semeon Lebedev GSI, Darmstadt, Germany and LIT JINR, Dubna, Russia Gennady Ososkov LIT JINR, Dubna, Russia.

Speed-up of the ring recognition algorithm Semeon Lebedev GSI, Darmstadt, Germany and LIT JINR, Dubna, Russia Gennady Ososkov LIT JINR, Dubna, Russia.
STS track recognition by 3D track-following method Gennady Ososkov, A.Airiyan, A.Lebedev, S.Lebedev, E.Litvinenko Laboratory of Information Technologies.

STS track recognition by 3D track-following method Gennady Ososkov, A.Airiyan, A.Lebedev, S.Lebedev, E.Litvinenko Laboratory of Information Technologies.
PANDA collaboration meeting2.-4. June 2004 simulation statusOverview New Framework  why  status  schedule Simulation subdetector  Forward spectrometer.

PANDA collaboration meeting2.-4. June 2004 simulation statusOverview New Framework  why  status  schedule Simulation subdetector  Forward spectrometer.
Ooo Performance simulation studies of a realistic model of the CBM Silicon Tracking System Silicon Tracking for CBM Reconstructed URQMD event: central.

Ooo Performance simulation studies of a realistic model of the CBM Silicon Tracking System Silicon Tracking for CBM Reconstructed URQMD event: central.
Fast reconstruction of tracks in the inner tracker of the CBM experiment Ivan Kisel (for the CBM Collaboration) Kirchhoff Institute of Physics University.

Fast reconstruction of tracks in the inner tracker of the CBM experiment Ivan Kisel (for the CBM Collaboration) Kirchhoff Institute of Physics University.

Similar presentations

Ads by Google