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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 1 Status of the ALICE MUON Spectrometer Alignment Strategies & Results from Cosmic run Javier Castillo, IRFU Raphaël Tieulent, IPNL for the ALICE Collaboration
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Plan ALICE forward MUON spectrometer – Geometry – Expected initial misalignments – Target alignment Alignment sources, procedures and status – Survey and photogrammetry – Alignment with tracks – GMS Shuttle Integration of three alignment sources Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 2
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Forward MUON Spectrometer: Front absorber Dipole magnet (0.7 T) Tracking chambers (CPC) Muon filter Trigger chambers (RPC) Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 3 Geometry and expected misalignments MUON tracking detectors: 5 stations 2 quadrant type 3 slat type 10 chambers (2 chambers / station) 156 detection elements 2x4; 2x4; 2x18; 2x26; 2x26 provide x (1 mm) - non bending plane y (0.1 mm) - bending plane Tracking Chambers Stations 1,2,3,4 and 5 Slats type Quadrants type MUON tracking detectors: Expected initial precision: chambers x,y,z ~ 1 mm detection elements x,y,z ~ 500 m
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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 4 MUON Spectrometer performances: Resolution < 50 m needed MUON Spectrometer physics program include: Quarkonia resonances Open Beauty (Charm) Stronger constrain to the alignment is given by the necessity to separate the three states of the Upsilon family:
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Alignment sources Survey and Photogrammetry – Survey: half-chamber with respect to ALICE (~mm) – Photogrammetry: slat or quadrant with respect to chamber (~100 μm) – Once per year Alignment with tracks – slat or quadrant with respect to each other (~20 μm) – half-chamber with respect to ALICE – B=0; few times per year Geometrical monitoring system (GMS) – half-chambers with respect to reference (~20 μm) – Continuously Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 5
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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 6 Photogrammetry and Survey 1. Sticker targets: Unknown local position If enough (>3) fit a plane Provide and rotation 2. Button targets: Known local position Fit local to global transformation (using known and ) provide x,y,z translation and , and rotation Survey and Photogrammetry should provide Day 0 misalignment file Survey: half-chamber with respect to ALICE Photogrammetry: slat or quadrant with respect to chamber
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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 7 Current results – Ch5 (slats) Support panel is bended All results within mechanical specifications Lines: misalignments of (half-)chambers with respect to Alice Circles: misalignments of detection elements with respect to chamber ALICE Preliminary
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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 8 Alignment with tracks : Millepede What you need to do: 1. Define your “alignment parameters” Global parameters 2. Define your “track model” (B=0) Local parameters 3. Define your “measurement” Must be sensitive to the parameters 4. Write a linear expression of your 2 to minimize: Per detection element: B=0, straight track (4 parameters) X (~1.0 mm) and Y (~0.1 mm) position of hit MUON Developed by V. Blobel: http://www.desy.de/~blobel/wwwmille.html AliMillepede, modified from a c++ translation by S. Viret (LHCb) of original fortran package: http://alisoft.cern.ch/viewvc/trunk/STEER/AliMillepede.cxx?root=AliRoot&view=log AliMUONAlignment, MUON specific alignment code using AliMillepede: http://alisoft.cern.ch/viewvc/trunk/MUON/AliMUONAlignment.cxx?root=AliRoot&view=log
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Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 9 Current Results B=0, N track dependence Input misalignments: Uniform | X,Y |<300 m | |< 500 rad 100k - 150k is a reasonable number Alignment precision: RMS X = 20 m RMS Y = 10 m RMS = 20 rad ALICE Preliminary
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March 2009 Cosmic Run Conditions – 2 week of data taking – ~0.15 Hz trigger rate – 9 out of 10 chambers Reconstruction – 11676 reconstructed tracks – Track residuals: Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 10 Overall resolutions ~ 3-4 mm BendingNon-Bending ALICE Preliminary ALICE Preliminary
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Alignment with cosmic tracks First iteration – Tracking with large cluster resolution – Using AliMillepede – Degrees of freedom: Δx, Δy, Δz and ΔΦ for each detection element – Constraints: fix detection elements with smaller mean residual in the bending direction – Start from ideal geometry Second iteration – Tracking with readjusted cluster resolution – Using AliMillepede – Degrees of freedom: Δx, Δy, Δz and ΔΦ for each detection element – Constraints: fix detection elements with smaller mean residual in the bending direction – Start from realigned geometry Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 11
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Second attempt to align with cosmic tracks Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 12 Track residuals Mean: symbol Error on mean: error bar Great! Ch. 1Ch. 2Ch. 3Ch. 4 Ch. 5 Ch. 7Ch. 8Ch. 9Ch. 10 o Reco from ideal geo ▲ ReAlignment ■ ReReAlignment Bending direction ALICE Preliminary
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Second attempt to align with cosmic tracks Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 13 Non-Bending direction Ch. 1Ch. 2Ch. 3Ch. 4 Ch. 5 Ch. 7Ch. 8Ch. 9Ch. 10 Track residuals Mean: symbol Error on mean: error bar Great! o Reco from ideal geo ▲ ReAlignment ■ ReReAlignment ALICE Preliminary
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Track residuals Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 14 Reco from ideal geo ReAlignment ReReAlignment BendingNon-Bending ALICE Preliminary ALICE Preliminary
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Geometrical Monitoring System Objective – Measure relative displacements of the tracking chambers GMS = Array of optical sensors – 2 types of sensors – 460 sensors – more than 1000 images Status – Chamber 6 to be equipped 15 System BCAM CCD lasers lens D>80 cm CCD sensor Diffuser IR LED Coded Mask Lens ~10 cm D ~ 40 cm System PROXIMITY 3rd LHC Alignment Workshop - CERN - 15/06/2009 15 Javier Castillo
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Performance tests: supports deformation Goal: – Looks for carbon fiber support deformations when Low Voltages are switched ON Setup: – LMS between CH09-CH10 – TMS of CH09 & CH10 – Links to the wall of the cavern Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 16 Inside Wall Outside Wall CH09 CH10
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Supports deformation Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 17 LV ON OFFONOFFON Distance variation (µm) Time About 100 µm dilation of the support plan ALICE Preliminary
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Performance tests: time stability Goal: – Looks for stability of the tracking chambers in stable environment Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 18 LV ON LV OFF LV ON About 3 hours are needed to stabilize ALICE Preliminary
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Integration of all alignment sources Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 19 GMSref0GMSmeas0GMSmeas1 AlignTrk0 AlignTrk1 DCSDB AliEn OCDB Align/GMS Manual BOffBOnBOffBOn Survey OCDB Align/Baseline OCDB Align/Data BOn GMSref1GMSmeas2GMSmeas3GMSmeas4GMSref2GMSref3 Survey Survey Depot Survey0Survey1 Manual
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Summary Muon alignment strategies are defined and functional – All pieces exist although some are still being optimized Integration of all alignment sources is defined – Must be tested in real life Observed initial misalignments are large – Residuals ~ 4.0 mm in X and Y Alignment with tracks – Chosen approach is working – Results are encouraging GMS – Has show its ability to monitor the chamber displacements Cosmic run turned out to be very useful for the alignment of the ALICE MUON spectrometer! Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 20
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BACKUPS Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 21
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Cosmic tracks are very useful! Javier Castillo3rd LHC Alignment Workshop - CERN - 15/06/2009 22 Different cluster distribution: Ch. 10 pp cosmic Easier to reach top and bottom slats!
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