Presentation is loading. Please wait.

Presentation is loading. Please wait.

March 3, 2009 V.Karimäki, Sensor planarity 1 1 Sensor planarity study (pogress report) V. Karimäki Project meeting Helsinki 03.03.2009.

Published byMatthew Roberts Modified over 8 years ago

Similar presentations

Presentation on theme: "March 3, 2009 V.Karimäki, Sensor planarity 1 1 Sensor planarity study (pogress report) V. Karimäki Project meeting Helsinki 03.03.2009."— Presentation transcript:

1 March 3, 2009 V.Karimäki, Sensor planarity 1 1 Sensor planarity study (pogress report) V. Karimäki Project meeting Helsinki 03.03.2009

2 March 3, 2009 V.Karimäki, Sensor planarity 2 1 Recall the basic idea Q: track impact point at planar sensor P: true impact point at curved sensor near the true hit position Q': point where our flat detector model assumes the hit lies Departure from planarity causes a systematic offset:  u = (du/dw)*w P du/dw=t 1 /t 3 from track direction t = (t 1,t 2,t 3 ) Our CMSSW detector model: planar sensors (w=0)

3 March 3, 2009 V.Karimäki, Sensor planarity 3 1 Hit correction for non-planarity  Corrected u-coordinate: u c = u h -  u = u h - (t 1 /t 3 )*w[1]  So preserve the detector model, but do correction  From [1]: w=(t 3 /t 1 )*  u  For fixed position (u,v): w= [2]  So systematics (  u) in residuals give an estimate of w i.e. the surface coordinates, computing [2] in bins

4 March 3, 2009 V.Karimäki, Sensor planarity 4 1 Sensor curvature can be studied 1.Parametrizing shape: w=au 2 +buv+cv 2 and fitting a,b,c 2.Model independent sensor shape by plotting mean residuals weighted with (t 3 /t 1 ) as a function of u,v

5 March 3, 2009 V.Karimäki, Sensor planarity 5 1 Verification with Monte Carlo Parameterized surface Fitted surface

6 March 3, 2009 V.Karimäki, Sensor planarity 6 1 Model independent surface shape  By plotting weighted uncorrected mean residuals Here MC

7 March 3, 2009 V.Karimäki, Sensor planarity 7 1 Sensor shape study in cosmics  CRAFT data  CMSSW  TOB and TIB so far  Begin with non-aligned data  Pick up a few sample modules

8 March 3, 2009 V.Karimäki, Sensor planarity 8 1 Residuals profile, uncorrected v [cm]

9 March 3, 2009 V.Karimäki, Sensor planarity 9 1 Residuals profile, corrected v [cm]

10 March 3, 2009 V.Karimäki, Sensor planarity 10 1 Residuals, uncorrected, a TOB mod

11 March 3, 2009 V.Karimäki, Sensor planarity 11 1 Residual correction for non-planarity

12 March 3, 2009 V.Karimäki, Sensor planarity 12 1 Corrected residual

13 March 3, 2009 V.Karimäki, Sensor planarity 13 1 Sensor shape, example

14 March 3, 2009 V.Karimäki, Sensor planarity 14 1 Summary By simple Monte Carlo:  Demonstrated method to fit sensor shape  Method to correct hit positions  Demonstrated model independent way to look for possible sensor curvature Cosmics:  First studies using TOB  No significant effects so far  Further studies with many more modules

Download ppt "March 3, 2009 V.Karimäki, Sensor planarity 1 1 Sensor planarity study (pogress report) V. Karimäki Project meeting Helsinki 03.03.2009."

Similar presentations

Impact parameter studies with early data from ATLAS

Impact parameter studies with early data from ATLAS
Antonis Leisos KM3NeT Collaboration Meeting the calibration principle using atmospheric showers the calibration principle using atmospheric showers Monte.

Antonis Leisos KM3NeT Collaboration Meeting the calibration principle using atmospheric showers the calibration principle using atmospheric showers Monte.
Giuseppe Roselli (CMS-RPC) Università degli Studi di Bari – INFN RPC Efficiency with Track Reconstruction Giuseppe Roselli.

Giuseppe Roselli (CMS-RPC) Università degli Studi di Bari – INFN RPC Efficiency with Track Reconstruction Giuseppe Roselli.
Electromagnetic shower in the AHCAL selection criteria data / MonteCarlo comparison of: handling linearity shower shapes CALICE collaboration meeting may.

Electromagnetic shower in the AHCAL selection criteria data / MonteCarlo comparison of: handling linearity shower shapes CALICE collaboration meeting may.
June 6 th, 2011 N. Cartiglia 1 “Measurement of the pp inelastic cross section using pile-up events with the CMS detector” 1 2 4 3 8 5 6 7 How to use pile-up.

June 6 th, 2011 N. Cartiglia 1 “Measurement of the pp inelastic cross section using pile-up events with the CMS detector” How to use pile-up.
Moving Averages Ft(1) is average of last m observations

Moving Averages Ft(1) is average of last m observations
Page 1 Calculating the Beam Position at the Ecal for DESY Run 230101 (Independent of Tracking) Hakan Yilmaz.

Page 1 Calculating the Beam Position at the Ecal for DESY Run (Independent of Tracking) Hakan Yilmaz.
Cluster Threshold Optimization from TIF data David Stuart, UC Santa Barbara July 26, 2007.

Cluster Threshold Optimization from TIF data David Stuart, UC Santa Barbara July 26, 2007.
2015/6/23 1 How to Extrapolate a Neutrino Spectrum to a Far Detector Alfons Weber (Oxford/RAL) NF International Scoping Study, RAL 27 th April 2006.

2015/6/23 1 How to Extrapolate a Neutrino Spectrum to a Far Detector Alfons Weber (Oxford/RAL) NF International Scoping Study, RAL 27 th April 2006.
Minimum bias vertex distribution for 1998/99 e - p data and reweighting routine é Measuring the minimum bias vertex distribution. Ricardo Gonçalo, 21/3/2000.

Minimum bias vertex distribution for 1998/99 e - p data and reweighting routine é Measuring the minimum bias vertex distribution. Ricardo Gonçalo, 21/3/2000.
New MC set summary Old MC set summary 400k events generated for each set in STARlight Radius adjusted for matching exponential slope of t-spectrum Fully.

New MC set summary Old MC set summary 400k events generated for each set in STARlight Radius adjusted for matching exponential slope of t-spectrum Fully.
CC ANALYSIS STUDIES Andy Blake Cambridge University Fermilab, September 2006.

CC ANALYSIS STUDIES Andy Blake Cambridge University Fermilab, September 2006.
1 BABS 502 Moving Averages, Decomposition and Exponential Smoothing Revised March 11, 2011.

1 BABS 502 Moving Averages, Decomposition and Exponential Smoothing Revised March 11, 2011.
Correlation & Regression

Correlation & Regression
Problem 1 Given a high-resolution computer image of a map of an irregularly shaped lake with several islands, determine the water surface area. Assume.

Problem 1 Given a high-resolution computer image of a map of an irregularly shaped lake with several islands, determine the water surface area. Assume.
Atmospheric Neutrino Oscillations in Soudan 2

Atmospheric Neutrino Oscillations in Soudan 2
Craft09 Visual Summary and Efficiency Trackermaps Giuseppe Zito : Infn Bari Italy Giuseppe Zito, Infn Bari.

Craft09 Visual Summary and Efficiency Trackermaps Giuseppe Zito : Infn Bari Italy Giuseppe Zito, Infn Bari.
Blue: Histogram of normalised deviation from “true” value; Red: Gaussian fit to histogram Presented at ESA Hyperspectral Workshop 2010, March 16-19, Frascati,

Blue: Histogram of normalised deviation from “true” value; Red: Gaussian fit to histogram Presented at ESA Hyperspectral Workshop 2010, March 16-19, Frascati,
W  eν The W->eν analysis is a phi uniformity calibration, and only yields relative calibration constants. This means that all of the α’s in a given eta.

W  eν The W->eν analysis is a phi uniformity calibration, and only yields relative calibration constants. This means that all of the α’s in a given eta.
Current Status of Hadron Analysis Introduction Hadron PID by PHENIX-TOF  Current status of charged hadron PID  CGL and track projection point on TOF.

Current Status of Hadron Analysis Introduction Hadron PID by PHENIX-TOF  Current status of charged hadron PID  CGL and track projection point on TOF.

Similar presentations

Ads by Google