FNAL Target Related Capabilities PASI 2013 Working Group 1 P. Hurh (FNAL)

Slides:

Advertisements

Similar presentations

WG1: High Power Targets PASI 2013 Working Group Sessions Introduction Convened by: Dr. C. Densham (STFC/RAL), Mr. P. Hurh (FNAL)

Advertisements

HiRadMat Beryllium thermal shock test Kavin Ammigan PASI 2 nd Annual Meeting RAL, UK April 2013 Contributors: P. Hurh, B. Hartsell.

Tritium Target 9 December Overview Design and major subsystems Thermal/structural analysis Cell filling Vent and stack T2 detection and monitoring.

The Current T2K Beam Window Design and Upgrade Potential Oxford-Princeton Targetry Workshop Princeton, Nov 2008 Matt Rooney.

AP-0 Target Hall Experience Fermilab Anti-Proton Source P. Hurh ( ) Mechanical Support Dept. Fermilab Anti-Proton Source P. Hurh ( ) Mechanical.

RaDIATE 1 st Annual Collaboration Meeting May Cost-effective Irradiations Discussion Radiation Damage In Accelerator Target Environments.

Chris Densham RAL High Power Targets Group To be a ‘one-stop shop’ (P. Hurh) for target technology Enable optimum physics performance via sound engineering.

2nd High-Power Targetry Workshop MATERIAL IRRADIATION STUDIES FOR HIGH-INTENSITY PROTON BEAM TARGETS Current & Future Activities N. Simos and H. Kirk,

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

Stereolithography Technology for Creating Solid Prototypes.

Status of T2K Target 2 nd Oxford-Princeton High-Power Target Workshop 6-7 th November 2008 Mike Fitton RAL.

Primary Target Systems for a Muon Collider / Neutrino Factory. What has the experimental effort taught us thus far. N. Simos, H. Kirk, S. Kahn, P. Thieberger,

MuTAC Review - March Solid Target Studies N. Simos Brookhaven National Laboratory.

ENEN Collimator Materials for LHC Luminosity Upgrade: Status of Irradiation Studies at BNL Collimation Upgrade Specification Meeting 21/06/2013 N. Mariani.

Design on Target and Moderator of X- band Compact Electron Linac Neutron Source for Short Pulsed Neutrons Kazuhiro Tagi.

FETS-HIPSTER (Front End Test Stand – High Intensity Proton Source for Testing Effects of Radiation) Proposal for a new high-intensity proton irradiation.

Vacuum, Surfaces & Coatings Group Technology Department Glassy Carbon Tests at HiRadMat 14 March 2014 C. Garion2 Outline: Introduction Context: Transparent.

OVERVIEW Material Irradiation Damage Studies at BNL BLIP N. Simos and H. Kirk, BNL K. McDonald, Princeton U N. Mokhov, FNAL (Oct. 20, 2009) (BLIP = Brookhaven.

CIEMAT CONTRIBUTION TO TBL PETS (January 2009) David Carrillo on behalf of the Accelerators Team.

F. Pellemoine PASI Workshop - April 3-5, 2013 Capabilities of NSCL - FRIB.

201 MHz and 805 MHz Cavity Developments in MUCOOL Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory Nufact 2002 Workshop, London,

LASER BEAM MACHINING BY S.PREMKUMAR.

Next generation of ν beams Challenges Ahead I. Efthymiopoulos - CERN LAGUNA Workshp Aussois, France, September 8,2010 what it takes to design and construct.

201 MHz NC RF Cavity R&D for Muon Cooling Channels

PASI Workshop, Fermilab Jan Radiation Damage and Radio-chemistry Issues N. Simos, H. Kirk, BNL P. Hurh, N. Mokhov, FNAL K. McDonald, Princeton.

Operated by Los Alamos National Security, LLC for the U.S. Department of Energy's NNSA | UNCLASSIFIED | 1 Post Irradiation Examination of an Alloy 718.

NuFact 2005 US Solid Target Program Neutrino Factory/Neutrino Super Beam N. Simos, BNL H. Kirk, H. Ludewig, PT. Trung (BNL) K. McDonald, Princeton U. J.

Date Event Global Design Effort 1 Overview of Mechanical Engineering Design Progress for LC 18MW Beam Dump CLIC08 10/16/08 (From left) Dieter Walz, Ray.

Status of the Fermilab Cold BPM R&D Manfred Wendt Fermilab 10/1/20091LCWA09 Main Linac WG.

Lessons learnt at 5 th High-Power Targetry Workshop Fermilab, May 2015 Federico Carra EN-MME ColUSM

120 GeV Targeting Neutrino beams utilizing 120 GeV protons from Project X Main Injector Jim Hylen Fermilab AAC meeting August 8, 2007 With thanks to Patrick.

Experimental part: Measurement the energy deposition profile for U ions with energies E=100 MeV/u - 1 GeV/u in iron and copper. Measurement the residual.

RaDIATE October Technical MeetingOctober BLIP Irradiation Planning Radiation Damage In Accelerator Target Environments.

SEM- Schematic Overview. Electron Detection Tungsten Filament Electron Source.

F NuMI Beamline Accelerator Advisory Committee Presentation May 10, 2006 Mike Martens Fermilab Beams Division.

THERMAL ANALYSIS SUMMARY FOR LBNE-BLIP IRRADIATION TESTS P. Hurh 2/19/2010.

Collimator revue A. Bertarelli - S. Calatroni - M. Mayer - R. Perret TS/MME 1 OUTLINE of the presentation Technical Support Department Collimator.

FSC Status and Plans Pavel Semenov IHEP, Protvino on behalf of the IHEP PANDA group PANDA Russia workshop, ITEP 27 April 2010.

Target Simulations for Hadron, Electron and Heavy-Ion Beams 2 nd High-Power Targetry Workshop Oak Ridge, TN October 10-14, 2005 Fermilab High-Power Targetry.

JRA1 – SRF report CARE Steering Committee meeting,

BNL Irradiation Facility Use Collimator Materials for LHC Luminosity Upgrade.

New R&D Directions Carl Haber ATLAS Tracker Upgrade Mechanical Meeting 11-Sept-2013.

RaDIATE Meeting February /20/13P. Hurh RaDIATE February 2013 Meeting 1.

High Intensity Beam Test of Beryllium for Target and Beam Window Applications Presented by: Brian Hartsell Contributors: Kavin Ammigan, Patrick Hurh NBI.

Measurements of Intense Proton Beams using Optical Transition Radiation Vic Scarpine, Fermilab TIPP 2011 Chicago, IL June 10, 2011.

H. Weick, 8 th MAC meeting, GSI, Super-FRS Status Target Area H. Weick / M. Winkler 8th FAIR - Machine Advisory Committee Meeting

201 MHz Cavity Plans Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory February 11, 2011 MAP Friday Video Conference Meeting.

Thanks to all members of organisation committee for the preparation of this event Thanks to all participants for their interest R.Schmidt Introduction.

Design for a 2 MW graphite target for a neutrino beam Jim Hylen Accelerator Physics and Technology Workshop for Project X November 12-13, 2007.

HPT & M/D I WG DISCUSSION SLIDES PASI 2012 Hurh et al.

HB2008 – WG F: 27 Aug. S. Childress – Diagnostics_2MW 1 NuMI Beam Diagnostics and Control Steps to 2 MW S. Childress Fermilab.

1 Status Report: Experimental investigation of beryllium. October 2014 Viacheslav Kuksenko, Steve Roberts University of Oxford, UK.

T2K Target status PASI Meeting Fermilab 11 th November Chris Densham STFC Rutherford Appleton Laboratory On behalf of the T2K beam collaboration.

Engineering Issues for the NuMI Beamline at 2 MW Accelerator Physics and Technology Workshop for Project X P. Hurh Fermilab

Mike Andrews January 31, Weeks Activities Target Pile Fan Upgrades Install piping for new cooling coil units Install controls for new coil.

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Jefferson.

Irradiated T2K Ti alloy materials test plans

CERN – ENGINEERING DEPARTMENT: A. Dallocchio on behalf of EN-MME

Project meeting , Geneva

Heating and radiological

Beam dynamics simulation with 3D Field map for FCC RF gun

T5.2: Harmonization - Material and Component Reference

“hot spots” SIS100 internal beam dump Super-FRS production target

nuSTORM at Fermilab D Adey

Beam Window Studies for Superbeams

Target and Horn status report

The LARP Collimation Program

2th EuCard Col/Mat WP Meeting

Advances in Scanning Probe Microscopy

Presentation transcript:

FNAL Target Related Capabilities PASI 2013 Working Group 1 P. Hurh (FNAL)

Potential or Available Target Test Areas Existing and Near Future Capabilities Potential or Available Target Test Areas Facility Suitable for low activation, shallow depth radiation damage testing Suitable for bulk sample radiation damage testing Suitable for dynamic, high intensity beam on target / window testing Off-line (non- beam) target test facilitiesSum (6 max) Fermilab ****** Radiation Damage Irradiation- Currently no facility lending itself to low energy irradiation Some areas in front of beam absorbers at 400 MeV and 120 GeV Low flux compared to near future targets Areas not currently set-up to handle sample exchange, temperature control, etc… Target single pulse testing- Possibility exists at AP-0 Target Hall for NuMI/NOvA intensity pulse (~5e13 ppp) with smaller spot size (0.2 mm sigma) Would require extraction line re-configuration (re-installation of kicker system) 4/3/13 PASI 2013 WG1 FNAL Capabilities 2

Potential or Available Target Test Areas AP-0 Target Vault Hadron Monitor Slot US of NuMI Absorber 4/3/13PASI 2013 WG1 FNAL Capabilities 3

Materials Science Basic test systems (optical microscopy, tensile, hardness, etc.) Advanced test systems (SEM, TEM, FIB, Atom probe, etc) Micro- mechanics Expertise (micron scale test specimen) Synch light source & Molecular Dynamics Modelling Acceptance of Activated Samples Other (describe in comments column)Comments Sum (12 max) *** * **** Fairly capable basic materials testing lab (optical microscopy, tensile tester, hardness) Some more advanced equipment (SEM with EDS) Equipment primarily used in support of SC magnet and RF cavity development, but can accept low dose rate samples for analysis 4/3/13PASI 2013 WG1 FNAL Capabilities 4

Remote Handling/Hot Cell Advanced Remote Handling Expertise Basic hot cell Machining hot cell Basic testing hot cell Adv Matl test hot cell Other (describe in comments column)Comments Sum (12 max) ** ** Although we have quite a bit of experience with handling highly activated components (100 R/hr range) for transport and installation, we do not have much experience with truly remote repair or high precision assembly work Hot cell just completed in new C-0 Remote Handling Facility Transport Cask/Storage Bay system for handling large (4-8 m 2 ) 4/3/13PASI 2013 WG1 FNAL Capabilities 5

Remote Handling/Hot Cell C-0 Remote Handling Facility 4/3/13PASI 2013 WG1 FNAL Capabilities 6

Design/Analysis/Simulation Monte Carlos particle/ma terial interaction Thermo- mechanical Structural - Dynamic/Fr acture CFD (*) w/ fluid/struct ure interaction (**) Advanced numerical (custom) Other (describe in comments column)Comments Sum (12 max) ** ** ****** High Power Target Group Basic MARS for energy deposition, DPA, gas production ANSYS Thermo-mechanical ANSYS (LS-DYNA soon) Structural Dynamic/Fracture Accelerator Physics Center Advanced MARS analysis (MARS code author(s)) Accelerator Physics Optics codes PPD Mechanical Analysis Group ANSYS Thermo-mechanical CFX/Fluent CFD 4/3/13PASI 2013 WG1 FNAL Capabilities 7

Design/Analysis/Simulation  MARS 15 Monte-Carlo code to obtain energy deposition values in target/window for particular beam parameters.  Thermal and structural analysis performed in ANSYS -Temperature dependent material properties -Analysis of elastic and plastic material response  Normal stress at Be window edge  Future simulations will use the LS-DYNA software to model fracture/failure  Further validation with in beam experiments 4/3/13PASI 2013 WG1 FNAL Capabilities 8

Manufacturing Precision NC Machine Shop UHV quality Assembly Quality Assurance Lab (CMM) Welding, Brazing, Bonding Coating, Surface Treatments Other (describe in comments column)Comments Sum (12 max) ** * ******* Good quality precision machine shops Experience in fabrication for ultra-high vacuum Full featured QA Lab and metrology Good experience and knowledge in brazing, welding, and diffusion bonding Have experience with prototyping and building unique target facility components (horns, targets, striplines, detectors) 4/3/13PASI 2013 WG1 FNAL Capabilities 9

Manufacturing 4/3/13PASI 2013 WG1 FNAL Capabilities 10