Pixel Upgrade Phase I CMS Upgrade Week 27. April 2010 R. Horisberger, PSI.

Slides:

Advertisements

Similar presentations

HFT Technical Overview September 26, HFT 2013 TPC FGT 2011 STAR Detectors Fast and Full azimuthal particle identification EMC+EEMC+FMS (-1 ≤ 

Advertisements

ITS /MFT installation concept CERN 27 September 2012 Corrado Gargiulo.

1 Integration issues of FPCCD VTX Yasuhiro Sugimoto May 22,

Consolidation and Upgrade of the LHC Experimental Vacuum Sectors

Pixel Support Tube Requirements and Interfaces M.Olcese PST CDR: CERN Oct. 17th 2001.

Progress on the CMS Pixel front-end system ACES Workshop CERN 4. March 2009 R. Horisberger Paul Scherrer Institut.

ATLAS Upgrade ID Barrel: Services around ‘outer cylinder’ TJF updated According to the drawing ‘Preparation outer cylinder volume reservation’

1 5 December 2012 Laurent Roy Infrastructure / Electronics Upgrade -Cabling (long distance) -Rack and Crate (space, electrical distribution, cooling) -Detector.

Detector studies, Radiation Simulations, Organization FCC Hadron Detector Meeting July 27 th 2015 W. Riegler.

Installation Review March ‘03 L.Simonetti – INFN Torino 1 ITS - FWD - beam pipe installation  Elements considered ITS (=SPD+SDD+SSD), FWD (=V0 R, T0 R,

09/03/2010 ADO-PO section meeting Beam Pipe Extraction/Insertion R. Vuillermet.

CMS Pixels upgrade CO 2 cooling transfer lines Introduction to the two projects P.Tropea 5 Dec 2012.

ACFA-7; Taipei, Nov 2004 H.Weerts status Si licon D etector Status H.Weerts Fermilab/Michigan State Univ. (Progress on Si-tracker layout)

CMS Phase I upgrades LHCC September 2009 Meeting LHCC Sep 2009J. Nash - CMS Upgrades1.

Phase 1 FPIX cooling tubes routing in HC Kirk Arndt - Purdue124 April 2012.

Sensor Choice The story here is surely damage – See that silicon worked well in the PLT test until we shifted the timing to optimize diamond Reducing BX.

W. Karpinski, Nov CMS Electronics week CMS Microstrip Tracker grounding & shielding of the CMS Tracker R. Hammarstrom (CERN EP/CMT) & W. Karpinski.

Oct. 9, 2008W. Bertl - PSI BPIX Cooling with CO2 Assuming 3 or 4 Layers.

Alice overview New detector and chamber ALICE TC.

PHENIX Silicon Vertex Tracker. Mechanical Requirements Stability requirement, short and long25 µm Low radiation length

PMG Meeting February 2000 A Split Central Silicon Tracker W. E. Cooper on Behalf of the D0 Silicon Group 3 February 2000.

1 Outer Barrel, Phase 2 Mech Review 26 Aug 2013, indico: Antti Onnela, CERN Tracker Phase 2 Mechanics Review, 26 August 2013 Status of the Outer.

Mechanics and granularity considerations of a Tile hadronic calorimeter for FCC hh barrel Nikolay Topilin/Dubna+ Sergey Kolesnikov/Dubna Ana Henriques/CERN.

ATLAS 1 Beam Pipe Support Structure (BPSS) Interface and Assembly Final Design Review, April 2003 E. Anderssen, N. Hartman LBNL.

The HCAL barrel absorber structure

EAR2 Beam Line Report on the Status C. Weiss EAR2 Beam Line - Report on the Status1.

TOB meeting, TOB meeting 20 September 2005, Antti Onnela: TOB mechanical integration status and plans n TST-TOB-TIB integration exercise n.

Alpine pixel layout Integration progress Teddy Todorov For the ATLAS-LAPP group AUW Integration meeting 20/11/2012.

The CMS Pixel upgrade Integration project PROPOSED AGENDA 1 G.W. Faber Introduction / adoption of the agenda.G.F. Overview of the Pixel system.

Assumptions: Cockcroft-Walton photomultiplier bases are the same for all ECAL sections Digital to analog converters are installed on the distribution boards.

TC Straw man for ATLAS ID for SLHC This layout is a result of the discussions in the GENOA ID upgrade workshop. Aim is to evolve this to include list of.

ILD Vertex Detector Y. Sugimoto 2012/5/24 ILD

SiD Collaboration Meeting Highlights Tom Markiewicz/SLAC ILC BDS Meeting 08 May 2007.

WP4 Activities J. Nash – SLHC-PP SG SLHC-PP WP4 Feb 20091J. Nash - CMS Upgrades.

8/12/2010Dominik Dannheim, Lucie Linssen1 Conceptual layout drawings of the CLIC vertex detector and First engineering studies of a pixel access/insertion.

CO2 Cooling For the CMS Pixel detector 11 November 20081Hans Postema & Antti Onnela.

Brief Status of LHC Experimental Vacuum Project Ray Veness CERN TE/VSC.

Geoff HallLECC LHC detector upgrades Introductory comments on electronic issues Organisation of this short session.

Vertex2011 Rust, June 21, 2011 W. Bertl PSI CMS Pixel Upgrade W. Bertl Paul Scherrer Institut 5232 Villigen-PSI, Switzerland.

Technical Design for the Mu3e Detector Dirk Wiedner on behalf of Mu3e February Dirk Wiedner PSI 2/15.

An Overview of the FPIX Detector Upgrade – CMS Experiment

Tracker Upgrade Mechanical/Thermal Engineering 3 June meeting theme: Modules and Structures News on Phase 1 BPIX Upgrade Mechanics & Modules, R. Horisberger.

B [OT - Mechanics & Cooling] Stefan Gruenendahl February 2, 2016 S.Grünendahl, 2016 February 2 Director's Review -- OT: Mechanics &

USCMS Pixel PMG, Nov 29, Mechanics Status Disks, ½ Service Cylinders Installation USCMS FPIX FNAL PMG Joe Howell Bruno Gobbi Nov. 29, 2006.

CMS Upgrade CERN April 27, 2010 W. Bertl PSI Power & Cooling: Design Status of BPIX.

Central Tracker Cabling and Mechanics Paola Gianotti26/4/111.

K.Gadow - DESY 1 The HCAL barrel absorber structure Design Status

EC: 7 DISK concept Preliminary considerations

Straw man layout for ATLAS ID for SLHC

For the CMS Pixel detector

Ferrara MECHANICAL SUPPORT for forward tracking detectors Federico Evangelisti INFN - Ferrara GSI – 2-6 march 2009.

Alignment of the CMS Tracker

The LHCb Installation Story

IBL Overview Darren Leung ~ 8/15/2013 ~ UW B305.

Pixel Upgrade Status & Plans

- STT LAYOUT - SECTOR F SECTOR A SECTOR B SECTOR E SECTOR D SECTOR C

Cooling pipes and Space for Services

Silicon Pixel Detector for the PHENIX experiment at the BNL RHIC

WP9 ITS Mechanics and Cooling

SDHCAL Integration Moi j’aime bien SAFARI

The CMS pixel detector: Low Mass Design & Lessons Learned

WG4 – Progress report R. Santoro and A. Tauro.

Challenges for FCC-ee MDI mechanical design

Pixel Detector System (Barrel & Forward)

Silvan Steuli Roland Horisberger Stefan König CMS Upgrade Workshop

On the accuracy of port assembly at Wendelstein 7-X

2nd ACES workshop, CERN Hans-Christian Kästli, PSI

BCM Overview Placement such that system is sensitive to all types of beam accidents. => 2 independent subsystems Halo losses inside the Pixel volume ie.

Inner DET. Integration Inner detector envelope Radial clearances.

For the CMS Pixel detector

Presentation transcript:

Pixel Upgrade Phase I CMS Upgrade Week 27. April 2010 R. Horisberger, PSI

Pixel Detector System (Barrel & Forward) Beam pipe bake out  insertion/removal of pixel detector Supply tube : power, cooling & optical links AOH & DOH boards FPIX BPIX Installation BPIX & FPIX in July 2008 few days each ! FPIX removal and reinsertion in Spring 09 was fast ! New 4 Layer Pixel System should exploit potential new beam pipe! however, stay compatible with present beam pipe!  Worm gear

CMS BPIX in Installation Cassette Inner shield (C-fibre + Al-foil)

Tolerances for insertion are mm !  any new detector must stay within exact mechanical dimensions

Present BPIX System Central beam pipe section has: cylindrical Beryllium pipe length = +/- 180cm r inner =29mm, t wall = 800  m conical stainless stell section  = 4.6 Tolerance budget during insertion is critical issue Layer Radius 1 44mm 2 73mm 3 102mm Clearance in end- position ~ 7.5mm Inner shield r i = 37.3mm

Material Tomography by Hadronic Interactions (Gouzevitch)

Beam pipe r outer = 29.8mm Inner shield r inner = 37.3mm Displacement (observed) Shield to beam pipe Horizontal: 2.7 mm Vertical : 1.7 mm Material Tomography by Hadronic Interactions (Gouzevitch) 4.3mm 10.7mm Beam displaced ~2mm asymmetric to pipe! Why ? We have no idea !

BPIX Upgrade Baseline (2015)  1216 modules (1.6 x present BPIX) (present) Keep present tolerances need R=25mm pipe

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Worm Gear Adjustment of BPIX For next pixel detector needs position adjustable ball bearing rollers Compensate for deviations of beam pipe to tracker mechanics (pixel rails) Close detector in final position around actual beam pipe position Propose to use worm gear mechanics (remote adjustement ) for closing half shells around beam pipe.

Mechanical Pilot-Detector for Measurement Propose worm-gear adjustable mechanical Pilot Detector Just prior to installation perform measurement and adjustment to actual position

Weight of 2008 Pixel System with Supply Tube BPIX supply tube DOH & AOH mother board + AOH’s Power board endflange prints Layer 3 & 1+2  = 2.16 Total weight of 2008 BPIX within  <2.16 : 16’894 g ~ 16.9Kg 2 Barrels & 4 Supply Tube Sections & Fluid & Cables  = 2.16

BPIX & Supply Tube with AOH, DOH, PCBs & Fibres

Weight of 2015 Phase 1 Pixel System (4 layers) Total weight of Layer BPIX within  <2.16 : 6454 g ~ 6.5 Kg 2 Barrels & 4 Supply Tube Sections & CO 2 & Cables DOH & AOH boards start at z=1260mm   = 2.59 Foam & C-fibre ribs [cm] Plugs Layer 3&4 Plugs Layer 1&2  = 2.16 Ratio (3 Layers 2008 / 4 layers 2015) ~ 2.62 Weight of TIB/TID ~ 430 Kg