Tracker 1. Status 2. Expected delivery date of system to RAL 3. Required support infrastructure needed for setup and initial debug. Things like vacuum,

Slides:

Advertisements

Similar presentations

RockOn! Canister Integration RockOn! 2009.

Advertisements

Project Managers Update Roy Preece Particle Physics Department, STFC MICE Video Conference, 18 th September 2014.

Launching the Laser into an Optical Fibre n To launch a laser into an optical fibre, proceed as follows.

G.Barber Tracker Planning & Mechanical Preparation June Tracker Planning & Mechanical Preparation An outline of (known) outstanding work to be carried.

MICE Collaboration Meeting at Frascati, Jun 26~29, 2005 Iron Shield Mounting Design Stephanie Yang.

Installation Issues Steve Virostek Lawrence Berkeley National Lab MICE CM23 at ICST, Harbin January 13, 2009.

Luminosity Monitor MWPCs, commissioning. A.Kiselev OLYMPUS Collaboration Meeting DESY, Hamburg,

Project Report Paul Drumm CM15, FNAL June MICE Schedule Overview First beam September/October 2007 –Shutdown from January 2007 –Eight months for.

G.Barber Tracker Update, Berkeley 10 Feb Tracker Progress Contents:- Station Space Frame Patch Panel / Vacuum Seal Light Guide Map Position of Degrader/Support.

1 MICE PM Report Installations to date Future installation work Preparations for Phase Two Target status MICE Video Conference, 22nd May, 2008.

MICE Collaboration Meeting March 29 - April 1, CERN MICE alignment, tolerances and supports Tuesday March 30 Room Edgar Black/IIT March17-

MICE Installation and Commissioning meeting RAL, 12 June 2007 Diffuser Oxford University.

1 Status of infrastructure MICE Video Conference, August 17, 2005 Yury Ivanyushenkov Applied Science Division, Engineering and Instrumentation Department.

G.Barber 28 Oct Construction/Refurbishment Of The Tracker Prototype Contents:- Welcome Back Plans Layout Things to be addressed New Schematic.

Takashi Matsushita Imperial College T. Matsushita 1 Engineering (Mechanical) Geoff Barber.

Spectrometer Solenoid Update Michael S. Zisman Center for Beam Physics Accelerator & Fusion Research Division Lawrence Berkeley National Laboratory MICO.

Update Hardware for conductive cooling of the quench resistors has been fabricated at LBNL. Preparation for installation to start this week. Installation.

G.Barber Mice Tracker Mechanical Progress Imperial Tracker Update Contents:- Components Station Layout Light Guide Map QA Patch Panel Alignment.

Tracker Refurbishment. What was done… Over the past 3-4 months Trackers 1 and 2 have been refurbished. What does this mean? The trackers were removed.

1 Summary of MICE beamline & hall installations This is a very rough summary of the progress since mid-December Richard Apsimon & Andy Nichols MICO meeting.

1 Project Manager Report Andy Nichols, STFC MICE Collaboration Meeting, RAL, June 2009.

Tracker Summary Makoto Yoshida Osaka Univ. MICE Frascati June 28 th, 2005.

MICE: overview K. Long, 18 March, Contents ► Introduction ► Beam line ► Infrastructure ► MICE steps ► Phase II (comment) ► Conclusions.

Control and Monitoring System / EPICS Pete Owens Daresbury Laboratory.

MOM Report Galina Vankova RAL, MICE Video Conference.

Update on alignment kit and stave 250 frame M.Gibson (RAL) 1.

MICE MICO September ‘07 Chris Nelson. Beamline and Hall Shielded area virtually complete –SW corner –Replacement West wall concrete ordered, corner pieces.

TIB-TID insertion test into the CMS Tracker cylinder ________________________________________________________ Tracker week july 04

Preparations in the MICE hall Video Conference 25 th June 09 Tim Hayler Andy Lintern Peter Lau Geoff Barber.

PARKING BRAKE OPERATION, DIAGNOSIS, AND SERVICE

1 MICE Tracking Detectors Malcolm Ellis NFMCC Meeting 12 th March 2006.

G.Barber KEK Test Beam Update, Berkeley 9 Feb KEK Test Beam – Tracker Progress Contents:- Station Space Frame Light Guide Map Station Connectors.

Magnetic Mitigation - Contents l Magnetic Mitigation General l West Wall Compressors l Rack Room 2 l Magnetic Shielding Yoke Jason Tarrant – Integration.

Tracker Summary Alan Bross MICE CM October 10, 2007.

G. Barber Sci-Fi Tracker Progress Ral 28 Oct Progress On The Design Of The Full Tracker Contents:- Recap of New Station Layout Version 2.5 Version.

Status of the MICE Project & Dashboard MICE Project Board 14 th November 2013 Roy Preece.

Tracker Review –see technical board review web page: MICE -> technical board -> TB review pageMICEtechnical boardTB review page –Present: Tech Board: PD,

1M. Ellis - NFMCC - 31st January 2007 MICE Tracker.

MICE Phase 1 Koji Yoshimura KEK June

1 MICE PM Report Summary since CM21 Decay solenoid Infrastructure progress Step One Installation Worries MICE Video Conference, 19 th June, 2008.

1M. Ellis - 17th May 2007 SciFi Decoding (Everything you never wanted to know but couldn’t avoid going over and over)  VLSB Data (unpacking to AFE, MCM,

CM27 – 8 th July 2010 LH2 System Progress and Future Plans M Hills T Bradshaw M Courthold I Mullacrane P Warburton.

G.Barber: Sci-Fi Mechanical Design - Tracker Meeting Cern 29 March Latest thoughts on Mechanical Design Contents:- Revised Fibre Pitch Fibre Optic.

G.Barber/Peter Cooke: Mechanical Design Update Imperial 22 July Mechanical Update for Tracker workshop Contents:- New Station Layout Light Guide.

HARDWARE – HALO RDDK 5 th Feb 2015.

Target Commissioning Target installed in ISIS “Demonstrator” target in R78 Initial commissioning plans Chris Booth Sheffield 11 th February 2008.

M. Takahashi, 21 January, 2016 Station Acceptance (SA)

PASI OsC meeting 12th July 2012

Grapple Housing Top Sub Grapple Collet Seal Housing Bottom Sub Seal Housing Metal Seal Ring.

G.Barber Mice Tracker Mechanical Progress Tracker Mechanical Progress Contents:- Station Space Frame Station Layout Light Guide Map Connectors Patch.

Pre-CM33 schedule planning SuperMICO meeting, June 6th Motivation: For all of us to understand the main drivers behind the top-level MICE schedule So that.

22 October 2005MICE Meeting at RAL1 Tracker Solenoid Overview Michael A. Green Lawrence Berkeley Laboratory MICE Collaboration Meeting 22 October 2005.

G.Barber Mice Tracker Integration Harbin Jan Mice Tracker Integration Installation requirements & Procedure.

Tracker Cosmic Ray Test 2011 Linda R. Coney UC Riverside CM 29 - February 16, 2011.

Detector Summary Tracker. Well, as far as the tracker hardware is concerned, we are done. – Need to do the system test to make sure nothing has degraded.

26-Feb-16S.Movchan Straw manufacturing and QC1 Dubna NA62 straw tracker assembly area (milestone) halls plans conclusion Presented by S.Movchan.

1 InnoSys Quick Connect End Effecter Service and Maintenance Procedures Shreveport Assembly 14 MAY, 2008.

Installation of the T600 at Fermilab CSN2, September 22,

G.Barber Mice Tracker Mechanical Ral June Tracker Mechanical Update Contents:- Station Space Frame Station Layout Connectors Patch Panel Still to.

G.Barber Mice Tracker Mechanical Progress Tracker Update Contents:- Components Station Layout Light Guide Map QA Patch Panel Alignment of Tracker.

OsC mtg 15/10/2014 MICE Step IV Alan Grant. Content Step IV – Construction Status – Finances – Schedule – Risks – Summary 2.

DOE CD-2/3a Review of the BTeV Project – December 14-16, BTeV Pixel Detector Pixel Module Assembly and Half-Plane Assembly Guilherme Cardoso James.

1 MICE PM Report Phase One installations to date Phase One remaining items Progress with Phase Two Worries Don’t have time for a detailed status report,

G.Barber: Summary of Mice Fibre Tracker Meeting FermiLab 8-12 March Developments during Tracker workshop Contents:- Revised Fibre Pitch Fibre Optic.

Schedule and Milestones Roy Preece STFC RAL FAC 17 th April 2015.

K.Long/G.Barber Mice Tracker Mechanical Status CM20 Feb 08 1 Mice Tracker Mechanical Status Contents:- Tracker 1 Status Tracker 2 Status Further Hardware.

HF Test station at P5 A.Mestvirishvili.

MICE CM31 Schedule summary

Far Detector Activities Late 2017 – Early 2018

Cryomodule Assembly Plan

Presentation transcript:

Tracker 1. Status 2. Expected delivery date of system to RAL 3. Required support infrastructure needed for setup and initial debug. Things like vacuum, power, heavy-gang (riggers), mechanical tech support, etc. 4. Initial test plan 5. Installation in MICE Hall

Status: Station fabrication: –Now working on station ‘9’ –Polishing for stations for first tracker ‘soon’ –Station-acceptance rig now under commissioning Waveguide fabrication: –Harnesses for first station manufactured –Waveguide production in progress Cryosystem: –First production system ‘a go’ –Continued fab&test programme Electronics: –Boards: AFE II test programme Other boards available or being procured –Firmware: System sufficient for ‘day 1’ Upgrades to allow faster readout being developed DAQ/ReadOut –Needs to be developed more energetically –Require close interaction with JSG and DAQ group

Expected delivery date of system to RAL Goal: –First tracker to RAL in July for commissioning in R12 with cosmic rays Commissioning period: –July to September Goal is to have extended period to allow transfer of working system to MICE Hall ‘on demand’ in the autumn

Required support infrastructure needed for setup and initial debug.

R12 mezzanine

… Things like vacuum, power, heavy-gang (riggers), mechanical tech support, etc. Tracker group required for set-up commissioning and data taking Likely to require some support for crane operations –Modest Opportunity/issue: –Can we use DATE for readout Would be ideal opportunity

Installation in MICE Hall Slides from Geoff CM17 …

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 1 of Installation The patch panel is fitted and sealed to the solenoid. Hopefully at this stage we can test the seals using cover plates.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 2 of Installation The tracker, complete with the light guide support structure is lifted onto the installation cradle. The light guide support structure is to ensure that no damaging forces are exerted on the fibres. Covers will be fitted during transit. The tracker has targets on the 2 outer stations which will be visible from either end of the solenoid bore to allow for the correct alignment of the tracker in the bore.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 3 of Installation The tracker is then slide into its pre-determined position inside the bore of the solenoid. The position will be determined with the help of the survey group.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Positioning In The Solenoid The tracker sits on 4 adjustable feet two at the front two at the rear and is held down by a spring loaded foot at the 12 o’clock position. This aligns the axis of both tracker and solenoid The tracker is aligned in Z and Phi by pulling a locating block into a Vee which is located using dowels to the patch panel.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Tracker Adjustment The Diagram shows views and sections of the adjustable PTFE foot and its adjusting/locking tool. The PTFE foot, which rests on the bore of the solenoid, is eccentric and can be rotated by turning the green outer case that has a locating dog. Once adjusted it can be locked by turning the blue internal hex key.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 7 of Installation With the tracker in position and secure the light guides can now be carefully re-routed to their final position in the patch panel and the seals fitted. If the external light guides are not to be attached immediately then light tight/protection covers will remain fitted.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 8 of Installation The light guides can then be secured to stop any damage and a shield (not shown) fitted to stop any damage occurring when the diffuser is installed. The Light guide support structure is now removed.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Stage 9 of Installation The patch panel cover is fitted and sealed to the patch panel. If we are not ready to fit the diffuser mechanism then a cover plate will be attached. We can repeat the gas seal test at this point.

G.Barber Mice Tracker Mechanical Progress Cern February 2007 Requirements (those thought of at least) To carry out the work we will need at least 2M of clear working area in front of the solenoid. We hope that this is achievable either by removing equipment in front of the solenoid or as is more likely, by moving the solenoid sideways out of the beamline. The solenoid and its kit would sit on a plinth and it would move as one. As already stated we will need this area to be light controlled, this will probably be achieved by building a tent structure over the area.