STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) Participants: INFN * -Istituto Nazionale di Fisica Nucleare IFN-Istituto di.

Slides:

Advertisements

Similar presentations

1 News in the thermo-mechanical measurement in the Firenze facility Gianpietro Cagnoli a,b), Enrico Campagna a,c), Elisabetta Cesarini a), Matteo Lorenzini.

Advertisements

STREGA WP2 - Task C3 Roberto Passaquieti Dipartimento di Fisica E. Fermi Università di Pisa INFN sezione di Pisa ILIAS-GW GENERAL MEETING, Orsay 5 November.

STREGA C1:Cryogenic Last Stage Suspension (10 MIN) Task -C1: thermal conduction investigation of final stage suspension; This part of the suspension system.

STREGA C2:Cryogenic suspension system for advanced resonant detectors (5 MIN) Task -C2: development and construction of advanced cryogenic system for resonant.

Io ILIAS - STREGA MEETING

An interactive CD for training of workers Marta Dalla Vecchia Istituto Nazionale di Fisica Nucleare Sezione di Padova.

24. June 2004 Andreas Freise Status of VIRGO A. Freise For the Virgo Collaboration European Gravitational Observatory SPIE Glasgow 2004.

ET- WP2, Thermal noise issues Fulvio Ricci Assergi (L’Aquila) Laboratori Nazionali del Gran Sasso, February, 9th 2008.

Task M2 – Advanced Materials and Techniques for Resonant Detectors Motivation : Reduce thermal noise contribution to the acoustic detector noise budget.

Participants: C-1:Cryogenic last-stage suspensions (interferometers) (F.Ricci-G.Frossati) Objectives: -Design new suspension elements for the last stage.

T3 considers two aspects of the thermal noise The problem of the interrogation area of the test mass. Small interrogation area means large fluctuations.

Acoustic properties of a prototype for a hollow spherical gravitational antenna (^) Laboratori Nazionali del Gran Sasso dell’INFN (*) Laboratori Nazionali.

Work Package 4: Development of low loss dielectric coatings for advanced detectors Scientific motivation: Mechanical dissipation from dielectric mirror.

1 THERMAL CONDUCTIVITY OF SILICATE BONDED SAMPLES Status of measurements with the thermal conductivity facility in Firenze October, 8 th 2007 Gianpietro.

ILIAS meeting Mallorca 2005 V. Fafone Viviana Fafone INFN - LNF Future plans for resonant detectors

Tubingen, October 9th, Status of the ILIAS-GWA network Raffaele Flaminio EGO and LAPP/CNRS Summary - Introduction - Objectives, Contents & Tools.

Low noise Fused Silica suspensions: from the GEO600 experience to the 2 nd generation requirements Geppo Cagnoli INFN Sez. Firenze University of Glasgow.

Copper based composite: L-Cop Cu High thermal Conductive Cu 2 O Low thermal expansive Anna malai Industrial Engineering Material Science.

STREGA WP1/M1 mirror substrates GEO LIGO ISA Scientific motivation: Mechanical dissipation from dielectric mirror coatings is predicted to be a significant.

1 Paolo Falferi - ET WG2 meeting - Glasgow, 22/7/2010 Actuator magnetic noise measurement and possible developments Paolo Falferi CNR-FBK Trento and INFN.

Summary and Plans for the WG3 activity H.Lück, M.Punturo.

ISOL_HT: Thermal and Mechanical Properties of Materials at High Temperature: Experimental set-up development and measurements A Letter Of Intent for FP7.

London, October 26th, Status of the ILIAS-GWA network Raffaele Flaminio EGO and LAPP/CNRS Summary - Objectives & Contents - Means - Last year activities.

Update on UT cooling specifications and status of activities LHCb CO2 cooling meeting 31/8/2015 Simone Coelli For the Milano UT group INFN Milano 1 Istituto.

Ultra-cryogenics for advanced resonant detectors (C2) G.Frossati Kamerlingh Onnes Laboratory Leiden, The Netherlands Second ILIAS-GW Meeting.

R&D activities in Florence Geppo Cagnoli INFN and U. of Glasgow WG2 & WG3 Meeting – 27 th Apr Firenze.

Lisbon, 8 January Research and Development for Gravitational Wave Detectors Raffaele Flaminio CNRS/LMA Lyon.

JRA3 STREGA - Introduction Geppo Cagnoli IGR – University of Glasgow ILIAS-GW Meeting, Orsay, 5 th -6 th Nov 2004.

SUSPENSION DESIGN FOR ADVANCED LIGO: Update on GEO Activities Norna A Robertson University of Glasgow for the GEO 600 suspension team LSC Meeting, Hanford.

Advanced Materials Solutions Principal Investigator: Brian Williams, Ultramet Design and Modeling Support: Dr. Nasr Ghoniem, Digital Materials Solutions.

Toward a 3rd generation European Gravitational Wave Observatory Dual R&D: presented by Massimo Cerdonio INFN Section and Department of Physics Padova how.

Silicon as material for 3rd Generation detectors Geppo Cagnoli University of Glasgow INFN Sez. Firenze 2 nd ILIAS-GW Meeting – 25 th Oct. 2005, Palma de.

Task M2 – Working group Auriga-LNL Operation temperature KOperation temperature K Mechanical Attenuation >180dB in the frequency range.

R&D on thermal noise in Europe: the STREGA Project Geppo Cagnoli University of Glasgow AMALDI 6 – Okinawa - Japan June

Francesco Cottone INFN & Physics Departments of Perugia, Pisa, Florence (Collaboration Work under VIRGO Project) Thermomechanical properties of silicon.

Precision analysis of Geant4 condensed transport effects on energy deposition in detectors M. Batič 1,2, G. Hoff 1,3, M. G. Pia 1 1 INFN Sezione di Genova,

MAX-Phase Materials High performance ceramic materials for use in space applications Ida Kero Department of Engineering materials Luleå University of Technology.

ILIAS - GWA N5 - Strega JRA3 General Meeting Orsay - November 5th-6th, 2004 M1 Activities.

Virgo-Material “macro” group M.Punturo. VIRGO-MAT2 VIRGO-MAT components Virgo-MAT is composed by three INFN groups –Firenze/Urbino M.Lorenzini, G.Losurdo,

External micro-PIXE analysis of the metal deposition on a CMS pitch adapter M. Massi, L. Giuntini, M.E. Fedi, C. Arilli, N. Grassi, P.A. Mandò, A. Migliori,

STREGA & ET - 4th ILIAS-GW general meeting 1 STREGA legacy for ET Michele Punturo INFN Perugia.

Advanced Welding Technique

LIGO-G Z Silicon as a low thermal noise test mass material S. Rowan, R. Route, M.M. Fejer, R.L. Byer Stanford University P. Sneddon, D. Crooks,

ROG MAT Group: Bassan M., Minenkov Yu., Rocchi A., Simonetti R. – Roma2, INFN Fafone V., Quintieri L. – LNF ILIAS – GW Meeting report May 2004.

Friedrich-Schiller-University Jena Institute of Solid State Physics – Low Temperature Physics Christian Schwarz 15 th September Genoa 1 Investigation.

The coating thermal noise R&D for the 3rd generation: a multitechnique investigation E. Cesarini 1,2), M.Prato 3), M. Lorenzini 2) 1)Università di Urbino.

By Jan Haas. Overview 1. Gravitation as a wave 2. Weber bars 3. Laser interferometers 4. LISA.

Zeudi Mazzotta* On behalf of the AEgIS collaboration from Università degli studi di Milano Istituto Nazionale di Fisica Nucleare.

Cern.ch/knowledgetransfer. Knowledge Transfer | Accelerating Innovation Tiago Araújo, CERN KT Training Outline Description of the Technology Development.

1)A g sample of vanadium (specific heat of 0.49 J/g˚C) was heated to ˚C (its initial temperature). This piece of vanadium is then placed into.

STREGA WP4 coating development GEO LIGO ISA Scientific motivation: Mechanical dissipation from dielectric mirror coatings is predicted to be a significant.

Stave thermal analysis Cooling connections CO2 warm Test

Fulvio Ricci Cascina, November, 24th 2008

R&D VIRGO-EGO N5-W3 R&D EGO-VIRGO-July 8th, 2004.

EuCARD Status: September 2010.

INFN Progetto Premiale 2013 SIDENET Silicon Detector Network

Michele Punturo WP3 meeting, Cascina 9-July-2004

Studies of some properties of Hydroxide-Catalysis Bonds

(quadrupole) symmetry cylindrical bar

EGO The Infrastructure for Gravitational Wave Research in Europe

Wide Bandwidth Dual Acoustic GW Detectors

MiniGRAIL “Extreme Make-over” Giorgio Frossati

TCAD Simulations of Silicon Detectors operating at High Fluences D

Metal Matrix Composites

Renzo F. Parodi INFN-Genova

EBW دانشگاه جامع علمی کاربردی ماشین سازی اراک تهیه کنندگان:

T3 DEVELOPMENT OF SELECTIVE READOUT SCHEMES

Flat-Top Beam Profile Cavity Prototype

R&D in Glasgow MATERIALS ACTIVITY AIM Silica

Presentation transcript:

STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) Participants: INFN * -Istituto Nazionale di Fisica Nucleare IFN-Istituto di Fotonica e Nanotecnologie-CNR-Sezione di Trento MiniGRAIL-Leiden University – LION Institute of Physics U-Glasgow-University of Glasgow * Involved labs: Ferrara, Firenze, Genova, Frascati, Legnaro, Napoli, Padova, Perugia, Pisa, Roma 1, Roma 2, Trento, Urbino High-performance materials can increase the sensitivity and bandwidth of resonant detectors to achieve the intended 10-fold increase in the detection capabilities. This task aims to develop knowledge of the material properties and innovative technology for the production of test masses and transducers made of these new materials. The selected materials are Molybdenum, Silicon-Carbide (SiC), Beryllium, Copper Aluminium (CuAl), Niobium. Tungsten Objectives: - Measurement of the thermal expansion, thermal conduction and mechanical losses by varying the temperature from 300K down to 0.1K. - Investigation of the fabrication processes of silicate bonding for SiC, and electron beam welding, explosion welding and cold welding for metals. - Investigation of the various metal production processes as well as low temperature calorimetric studies to choose metals with the smallest Hydrogen contamination.

STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) Measurements of mechanical Q with spherical samples

STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) Beryllium

STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) CuAl6%

STREGA M2:Advanced materials and techniques for resonant detectors (5 MIN) Specific heat measurements