Cavity degradation after vert. test on the way or in the module, James Kerby ~10% agreement in results across laboratories typical ~20% degradation VT.

Slides:

Advertisements

Similar presentations

MICE RF and Coupling Coil Module Outstanding Issues Steve Virostek Lawrence Berkeley National Laboratory MICE Collaboration Meeting October 26, 2004.

Advertisements

SRF Cryomodule Assembly Facility Plans Tug Arkan AAC, May 10-12, 2005.

Plans for 201-MHz Cavities Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory November 18, 2010.

RF Measurement Plan Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory January 20, 2011 MICE Video Conference Meeting.

Possible Assembly and Test of the Crab cryomodule in SM18 at CERN P. Maesen LHC Crab Cav meeting, 17 Sep’ 09 LHC-CC09Cryomodule Assembly & Test Stand.

FNAL-SCRF 会議報告１． Cryomodule, Plug-compatible Interface ( 大内）２． High Pressure Code, 5K Shield (Tom Peterson)

Alignment and assembling of the cryomodule Yun He, James Sears, Matthias Liepe MLC external review October 03, 2012.

Cavity package T.Saeki BCD meeting 20 Dec Cavity shape BCD: TESLA shape Pros: small wakefield, HOM thoroughly investigated single-cell: 43 MV/m.

Athmospheric Surface Treatments of Niobium A. Camacho*^, A.A. Rossi* and V. Palmieri*^, * INFN – Legnaro National Laboratories ^ University of Padua.

SRF Cryomodule 2 Cavity Test Results Andy Hocker TD/SRF Dev Dept. All Experimenters Meeting, 10-OCT-2011.

Status of crab crossing studies Presented by NAKANISHI Kota (KEK) 2008/1/25.

Cryomodule Helium Vessel Pressure -- a Few Additional Comments Tom Peterson 18 November 2007.

LCLS-II cryomodule alignment. 2 Wednesday meeting, 6/17/2015 Topics Alignment of Components inside the CM Tunnel Network Tolerances LCLS-II cryomodule.

Summary of Main Linac SCRF-part H. Hayano, ILC08 at UIC.

Detail discussion of S1 Global at STF H. Hayano (KEK) GDE Mar 3-6, 2008.

CRYOGENICS FOR MLC Cryogenic Piping in the Module Eric Smith External Review of MLC October 03, October 2012Cryogenics for MLC1.

ERL: G-5/e-Gun Cryogenic & Pressure Safety Committee Review ERL G-5/e-gun Beam Line Vacuum Failure Analysis April 24, 2009.

Beijing ILC Workshop Global Design Effort 1 High-Gradient Module Test Lutz Lilje.

Revised SPL-study work-plan W. Weingarten 3 May 20101SPL Cavity WG Meeting.

Experience with LEP (and LHC) cryo-modules Workshop on cryogenic and vacuum sectorisations of the SPL O.Brunner – November ’09.

Requirements for Cryomodule What have to be inevitably realized?

Test plan for SPL short cryomodule O. Brunner, W. Weingarten WW 1SPL cryo-module meeting 19 October 2010.

Americas Cavity Specification C.M. Ginsburg (Fermilab) On behalf of the Fermilab cavity crew October 20, 2010.

FNAL efforts on LHC Crab Cavity R&D (Proposals for R&D sub-tasks, resources and schedule) Nikolay Solyak.

LASA Medium-β Cavity Progress Update Paolo Michelato 2 nd ESS Collaboration Meeting - SRF Elliptical Cavities 15 th December 2015.

Definition of Work Area H. Hayano, KEK EDR-KOM-cavity at DESY Issues of Cavity and Cavity Package, Work Package discussion.

Shrikant_Pattalwar TTC 2015 Dec 1, 2015 SLAC 1 Horizontal Tests in a Vertical Cryostat Shrikant Pattalwar STFC Daresbury Laboratory UK.

Medium Beta Cavities Paolo Michelato, Paolo Pierini, and Carlo Pagani INFN Milano - LASA.

Medium beta cavities Paolo Michelato, Paolo Pierini, Carlo Pagani INFN Milano - LASA.

Cryostat & LHC Tunnel Slava Yakovlev on behalf of the FNAL team: Nikolay Solyak, Tom Peterson, Ivan Gonin, and Timergali Khabibouline The 6 th LHC-CC webex.

RF power couplers vacuum issues J.M. Jimenez Vacuum, Surfaces and Coatings Group (TE-VSC)

High power RF tests places at CERN O. Brunner, CERN 4th SPL Collaboration Meeting jointly with ESS.

Date 2007/Sept./12-14 EDR kick-off-meeting Global Design Effort 1 Cryomodule Interface definition N. Ohuchi.

SPL cryomodule specification meeting, CERN 19th October 2010 SPL cryomodule specification: Goals of the meeting SPL cryomodule specification: Goals of.

Cryomodule Assembly Facility (CAF) at Fermilab Tug Arkan (FNAL) FNAL-LBNL joint meeting on SRF Cavities and Cryomodules March 15, 2012.

LCLS-II Prototype Cryomodule Vacuum Vessel and HGRP Tom Peterson 4 December 2014 Design Review.

Page 1 Jean Delayen Center for Accelerator Science Old Dominion University RF Dipole Cavity Design and Plans LARP Review Fermilab, 10 June 2013.

Visiting DESY for S1-G module Norihito Ohuchi 2009/8/251 19th Biweekly Webex meeting (S1-G, Cryomodule, Cryogenics)

Overview on DESY Infrastructure and up date/ grade Activities schedule status and plans Axel Matheisen DESY.

CW Cryomodules for Project X Yuriy Orlov, Tom Nicol, and Tom Peterson Cryomodules for Project X, 14 June 2013Page 1.

Shrikant_Pattalwar ICEC 26, March 7-11, 2016, Delhi 1 Horizontal Tests in a Vertical Cryostat Shrikant Pattalwar STFC Daresbury Laboratory UK.

Gradient Degradation Experience at Fermilab (NML/CM-1) Elvin Harms TTC Meeting, Beijing 5-8 December 2011.

Technical Board Report TESLA Technology Collaboration Meeting, Dec. 5 – 8, 2011, IHEP, Beijing, China TESLA Technology Collaboration Meeting, Dec. 5-8,

FNAL Cryomodule Assembly and Installation Plans Tug Arkan May 22, 2015.

Wish list from ESS Christine Darve H-ECCTD Kick-off meeting 16 March

Low Beta Cryomodule Development at Fermilab Tom Nicol March 2, 2011.

Development of Cryo-Module Test Stand (CMTS) for Fermi Lab (R.L.Suthar, Head,CDM, BARC) Cryo-Module Test stand (CMTS) is a very sophisticated equipment.

ILC-HiGrade annual meeting - 22 November 2010 ILC-HiGrade Meeting Cavity-Treatment at CEA Saclay (WP6) F. Eozénou.

ESS Cryomodule Status Meeting – Introduction | | Christine Darve Introduction to Cryomodules for the ESS 2013 January, 9 th Christine Darve.

Infrastructure status and plans at CERN 1) W. Weingarten/CERN TTC Milano 28 February - 3 March W. Weingarten/CERN 1)Most of the slides are based.

TDR guideline discussion on Cavity Integration

Stress and cool-down analysis of the cryomodule

WP5 Elliptical cavities

at STFC Daresbury laboratory

Cavity Test Results for PIP-II

ILC-SCRF Test Facilities considerations

T5.2: Harmonization - Material and Component Reference

DESY Experiences on Use of Gas overlay during Assemblies

Evolving an ILC focused SCRF Facility from the XFEL Infrastructure

S1-G cryomodule assembly status

TDR: Cryomodule Paolo Pierini.

Horizontal Tests in a Vertical Cryostat

2nd TTC Topical Workshop on « SRF Cryomodule Clean Room Assembly »

Highlights from EU Global Design Effort

Degradation and possible sources Statistic of resonators

IMP Cryomodule Assembly and Alignment

Retreatment of Superconducting Cavities for the European XFEL

Technical Issues Related to Superconducting Accelerator Modules

Cryomodule Assembly Plan

Cryomodules Challenges for PERLE

Presentation transcript:

Cavity degradation after vert. test on the way or in the module, James Kerby ~10% agreement in results across laboratories typical ~20% degradation VT to cryomodule typical (DESY number here high as only the 16 'bad' cavities reported small degradation w/ time (TRIUMPH 3%, CM1? other VT tests...) for 1300MHz on order 30% ±5% cavities in CMs have large drops or external (tuner, coupler...) failures. 25% desy, 3/8 in both CM1 and S1G, but CM1 and S1G driven by externals? Questions: Possible sources of degradation? What did we investigate? What do we have to investigate? What are the necessary improvements?

Cavity degradation after vert. test on the way to the module handling procedures – Cleaning for clean room – Pump and venting, cleanliness of pumping systems – Flange opening – Assembly of accessories – Leak check – Transportation RF Measurement – Fast power rise – Multipacting – FE from neighbor cavity External systems need same level of rigorous testing as cavities FE(?) largest suspect of remaining cavities Lack of instrumentation compatible w/ dressed cavity tests a limit. Ideas? Cross check of procedures across labs useful. Documentation of failures very useful; limited statistics, shared knowledge base helps all avoid duplication.

Questions about Q0, Clair Antoine, Camille Ginsburg 1)What is the measurement uncertainty of Q0? 2)Can magnetic shielding be used to improve Q0? At medium field? At high field? 3)What is the relation of Q0 to surface roughness and surface chemistry? At medium field? At high field? 4)For fine grain bulk Nb, which surface treatments maximize Q0? a)BCP vs. EP b)Tumbling c)Final HF rinse 5)Which “new” materials maximize Q0? a)Large grain? Does this depend on surface treatment? b)Multilayers (SC, insulating layers alternate), e.g., Nb3Sn, MgB2, NbN c)Thin films, e.g., Nb3Sn on Nb, Nb on Cu 6)What post-mortem is recommended for cavities which show high heat load (degradation) in cryomodule test to understand what happened? How do we discriminate between peripheral component heating and cavity surface heating?

1.Although large scale systems differ from small test systems, rapid pressure changes may be locally produced at or near the CM. Thus, even in single CM tests could be relevant. Do you see rapid (< 1 sec) pressure changes in your 2 K testing or larger 2 K systems? 2.If so, do you have some ideas about the sources? 3.Idea: Cryomodule design for pressure stability could involve not only vapor buffer volume but surface area of liquid-vapor interface for absorbing or desorbing vapor quickly with pressure changes. LHe oscillations in cryostats, Tom Petersen