Argontube Detector design Laffranchi Marco, Meregaglia Anselmo, Messina Marcello, Rubbia Andre’ Bern, 07.03.2006.

Slides:

Advertisements

Similar presentations

Muon EDR: Chamber design M2/3 R1/2 16/04/20031T.Schneider/LHCb Muon EDR 1.General description - AW read out -Cathode pad read out -HV supply 2.Details.

Advertisements

Design of the T962 Cryostat L. Bartoszek BARTOSZEK ENGINEERING 5/10/07.

TPC Proposal for the 35 Ton Liquid Argon Test Abstract We propose to equip the 35 ton cryostat with one APA and two CPA’s, and all the necessary equipment.

31/03/11FV 1 CEDAR from flammable gas safety point of view.

Test Chamber Assembly, 1.5M Long (59.00”) Vacuum Tube, 4.00 OD x 3.50 ID Vacuum Tube, 3.75 OD x 3.51 ID 3.375” CFF, Non-Rotatable Feedthrough, Ceramtec.

BINP level meter for cold liquids The method of measurements: change of the capacitance as function of a level of a liquid Originally designed for LN 2.

WA105 General Meeting at CERN 21 & 22-January-2014 Enrique Calvo Alamillo.

V. Carassiti - Princeton (USA) 9-13/01/ BABAR IFR UPGRADE DETECTOR ASSEMBLING AND MOUNTING.

New Readout Methods for LAr detectors P. Otyugova ETH Zurich, Telichenphysik CHIPP Workshop on Neutrino physics.

Biagio Rossi – PhD Student LHEP, University of Bern Biagio Rossi – PhD Student LHEP, University of Bern 1. Report on stautus of Analysis of capillary target.

Biagio Rossi – PhD Student LHEP, University of Bern Biagio Rossi – PhD Student LHEP, University of Bern 1.Analysis of capillary target 2.Report on LN-TPC.

SPACE FRAME Interface between the LGT and the IST 21/06/2011 Marco Ciapetti.

Majorana collaboration meeting, Seattle, Aug.7 - Aug. 9 Béla MajorovitsGERDA detector mounting 1 GERDA Detector Mounting The Detector Holders Detector.

Section 1 Dr.Hoda’s part Sheet 1: Calculating equipment cost Eng. Reda Zein.

Procedure of Connecting Coil Unit In series with Capacitor 10 April 14 Product: Fully Automatic Washing Machine.

1 Coordinate Detector: prototype design The Coordinate Detector (CDET): Three independent vertical planes with 15 cm plastic shield in front, all planes.

Status overview of the cooling 31 August 2015 Bart Verlaat, Raphael Dumps 1.

Ciemat Mechanical Structure Proposal for a DHCAL m 3 Prototype. Enrique Calvo Alamillo Paris

26 April 2013 Immanuel Gfall (HEPHY Vienna) Belle II SVD Overview.

Ron Madaras, LBL U.S. Pixel Meeting, SCIPP, July 9-10, 2003 Patch Panel 1 (PP1) Brief Review Cost and Effort Estimate.

Ultra-Compact Electrical Machines for Wind Energy DE-FOA : Demo Machine C. L. Goodzeit and M. J. Ball May 1, 2014 Part 1: Design and Construction.

Structural option for the Jinping neutrino central detector Contributor ： Yuanqing Wang, Zongyi Wang Speaker ： Zongyi Wang Department of civil engineering,

IPN Lyon ILD Mechanical structure April 2012 DHCAL Assembly, Tooling, Cooling J.C Ianigro - IPN Lyon -

1 PreFPIX2 Inner board and test beam triggering Gabriele Chiodini Fermilab - Jan 07, 02.

Itzhak Tserruya, BNL, Aug. 11, Itzhak Tserruya Weizmann Institute, Israel BNL, Upgrades Meeting, Aug. 11, 2004 HBD: Infrastructure and Integration.

FLARE Constructing the detector First FLARE Workshop November 4-6, 2004 Rafael Silva Fermilab / PPD / MD Fermilab Liquid Argon Experiments.

Grounding Guidelines Developed for LBNE

Long Bo for LAPD Hans Jostlein10/20/2011 December 15, 2015 Long Bo for LAPD 1.

Long Bo FT and Flanges April 12, 2012 talk Hans Jostlein 12/19/2015Long Bo FT and Flanges1.

VLVnT11 - Erlangen 12-14/10/ Giorgio Cacopardo NEMO Phase2 mechanical design G. Cacopardo on behalf of NEMO collaboration.

R&D on LAr TPCs for neutrino, proton decay and DM experiments Presented by A. Marchionni, ETH Zurich CHIPP Annual Plenary Meeting, Sept  GLACIER:

Summary of the Electrical Feedthroughs. 2 SFT Channels for the 3x1x1 m 3 N. 6 cold + N. 6 warm on a D=222mm flange (each with 20x68pin connectors)

The HCAL barrel absorber structure

Vrije Universiteit amsterdam Milan, September 25, 2000 VELO System J.F.J. van den Brand LHCb Vertex Detector System: Status Report J.F.J. van den Brand.

IPN Lyon ILD integration April 2015 Jean-Christophe Ianigro & Imad Laktineh - IPN Lyon -

A2-A5: The drawing has been revised (minor changes), the bid has been approved by INFN management and the invitation letter to the companies will be sent.

Dual-Phase ProtoDUNE Detector Installation : Plans & Constraints Adamo Gendotti.

Redesign of LumiCal mechanical structure W.Daniluk, E.Kielar, J.Kotula, K.Oliwa, Wojciech Wierba, L.Zawiejski Institute of Nuclear Physics PAN Cracow,

D. Peterson, for discussion of LC-TPC LP, interface of Endplate and Field cage, Discussion of the LP endplate and field cage geometry A version.

Wire and Cathode Planes - Current Concept (work in progress) PPD Internal Review – 2 nd Part April 19 th, 2005 Rafael Silva FLARE Fermilab Liquid Argon.

IPN Lyon ILD Mechanical structure February 2015 Design, Integration & Services J.C Ianigro - IPN Lyon -

MICE RF Coupler Modifications Update 4/30/2015 Allan DeMello.

Clive Field, Reggie Rogers, Venkat Srinivasan Undulator Week: BFW Card Status Update 01/23/ BFW Card - Physics Requirements.

WA105 General meeting CERN – 21 January 2015 Feedthroughs for the 3x1x1m 3 Franco Sergiampietri ETH Eidgenössische Technische Hochschule Zürich Swiss Federal.

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

Recent Changes to the FD TPC Design Bo Yu Oct. 20, 2015.

24 September 2012 Immanuel Gfall (HEPHY Vienna) Annekathrin Frankenberger (HEPHY Vienna) SVD Status of Mechanics PXD-SVD Meeting Göttingen.

MicroBooNE High Voltage System and Feedthrough MicroBooNE Collaboration Meeting Hans Jostlein, December 3,

R&D activities on a double phase pure Argon THGEM-TPC A. Badertscher, A. Curioni, L. Knecht, D. Lussi, A. Marchionni, G. Natterer, P. Otiougova, F. Resnati,

Miscellaneous MEC Topics Mainz, CM September 2016, MEC Session J

Installation of the T600 at Fermilab

Status of GASPARD mechanics

Ti/SS transitions A.Basti INFN-PISA*

Update of MVD services and requests

HFM Test Station Main Cryostat

A. Badertscher, L. Knecht, D. Lussi, A. Marchionni, G. Natterer, P

NA62 RICH ELECTRONICS LOGISTIC Part 2 R. Ciaranfi 25/05/2011.

First tests on the roll-formed field cage.

Integration issues at IHEP

Sphere Option for Helical spring CF16 Bellows Adjustment bolts (horizontal plane) CF38.

HPS Motherboard Electronic Design

Signal FT chimneys (SFTC)

PMT system production, QA and installation

Design of Distribution Feedbox at LHC P7

The Quench Detection-Wire-Feedthrough Plug-In of W7-X

Final Design CGEM Workshop HIEP, 14/03/2017 M. Melchiorri - INFN FE.

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

WA105: Order Status IFAE Thorsten Lux.

IR Beam Transport Status

Presentation transcript:

Argontube Detector design Laffranchi Marco, Meregaglia Anselmo, Messina Marcello, Rubbia Andre’ Bern,

Dewar 6380mm 1600mm X 1600mm Picture taken at the ETH Zurich

Dewar 250mm 349mm 5615mm 5400mm The LAr vessel has an inner volume of about 265L. Dewar with the LAr vessel inserted contains about 262L. Cut design of the Dewar In red is the inner vessel, in green is the dewar. If we want to extract the inner vessel vertically, we need at least 12m space.

Global view CF250 Flange (without feedthroughs) 3 x PE Pillars LEM Field shaping rings (10mm spaced) Greinacher chain 500mm

Global view Pillars, Rings and Greinacher. Cathode (not shown) PMT (Electron tube 9357) 100mm 25mm Drift=4473mm

Dewar Top View Dewar (D=349mm inside) CF250 Flange (D=305mm) LAr vessel (D=250mm) Field shaper rings (D=120mm x 3mm) 10mm spaced 62mm Greinacher capacitors 45mm 120mm Grooves for the HV and PMT signal cables.

LEM+Rings The LEM has a sensitive diameter of 120mm and it is composed of 97 squared pixels of 10mm x 10mm. The pillars have a diameter of 40mm with slits every 10mm. The ring can be fixed by a PE bar screwed on the pillar. The Greinacher has to be mounted as far as possible from the ground. The diodes and connections are not shown. The field shaping rings are placed every 10mm. I.e. 450 rings in total. They can be of stainless steel or copper.

Outline A first design of the detector for the Argontube has been presented. The LEM, pillars, field shaping rings, Greinacher chain and PMT has been designed. LEM:D=120mm made of 97 pixels (10mm x 10mm). Field shaping rings: 450 rings spaced 10mm. 120mm inner diameter, 3mm thick. Greinacher chain: it has to be as small as possible in the radial direction. PMT: a single big tube has been designed.