BLM review Mario Santana Leitner OUTLOOK ON FLUKA SIMULATIONS FOR UDULATOR DAMAGE AND BLM RESPONSE Mario Santana Leitner, Alberto.

Slides:

Advertisements

Similar presentations

Photon Collimation For The ILC Positron Target Lei Zang The University of Liverpool Cockcroft Institute 24 th March 2007.

Advertisements

Stefan Roesler SC-RP/CERN on behalf of the CERN-SLAC RP Collaboration

Workshop Issues Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator Center Diagnostics.

Plot Approval Yat Long Chan (CUHK) Igor Mandic (Ljubljana) Charlie Young (SLAC)

Status of the Tagger Hall Background Simulation Simulation A. Somov, Jefferson Lab Hall-D Collaboration Meeting, University of Regina September

Using FLUKA to study Radiation Fields in ERL Components Jason E. Andrews, University of Washington Vaclav Kostroun, Mentor.

Calculation of radiation produced by dark current in the Cornell ERL Lisa Nash, University of North Carolina at Chapel Hill Advisor: Val Kostroun.

January 24, 2008 Heinz-Dieter Nuhn, SLAC / LCLS Undulator BLM PDR Review 1 Undulator BLM PDR Review Heinz-Dieter Nuhn, SLAC / LCLS.

June 19, 2008 Heinz-Dieter Nuhn, SLAC / LCLS Overview 1 Overview Heinz-Dieter Nuhn, SLAC / LCLS June 19, 2008 Introduction Workshop.

ICRS-11 / RPSD-2008 Mario Santana Leitner FLUKA SIMULATIONS of the radiation damage of permanent magnets M. Santana Leitner,

June 19, 2008 Heinz-Dieter Nuhn, SLAC / LCLS LCLS Magnet Damage Management 1 LCLS Magnet Damage Management Heinz-Dieter Nuhn, SLAC.

BLM PDR Thursday January 24, 2008 Jeff Dooling 1 SLAC Computer Building (Bldg 50, Room 115), SLAC Thursday, January 24, 2008 BLM Calibration—

LCLS Undulator Magnet Irradiation Sensitivity Workshop Thursday June 19, 2008 Jeff Dooling 1 SLAC Redwood Room A/B, SLAC Thursday, June.

Induced Activity Calculations in Support of D&D Activities at SLAC Joachim Vollaire, Radiation Protection Department.

Undulator Gap Increase Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator Center.

Overview of Proposed Parameter Changes Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator.

April 16, 2007 Heinz-Dieter Nuhn, SLAC / LCLS Undulator Physics Issues 1 Undulator Physics Issues Heinz-Dieter Nuhn, SLAC / LCLS.

Impact of synchrotron radiation in LEPTON COLLIDER arcs

Radiation Environment at AWAKE Silvia Cipiccia, Eduard Feldbaumer, Helmut Vincke.

Characterization of Silicon Photomultipliers for beam loss monitors Lee Liverpool University weekly meeting.

IFluka : a C++ interface between Fairroot and Fluka Motivations Design The CBM case: –Geometry implementation –Settings for radiation studies –Global diagnosis.

Radiation levels in CBM Radiation effects iFluka (Fluka C++ interface to CbmRoot) Fluka Geometry Models Results Conclusion.

IFluka : a C++ interface between Fairroot and Fluka Motivations Design The CBM case: –Geometry implementation –Settings for radiation studies –Global diagnosis.

2 nd BLMTWG meeting, B. Auchmann, O. Picha, with A. Lechner.

GAMOS tutorial X-ray Exercises

Radiation Monitoring at the Undulator System Heinz-Dieter Nuhn – LCLS Undulator Group Leader Presented at Wednesday, March 7, 2012.

Scintillation hodoscope with SiPM readout for the CLAS detector S. Stepanyan (JLAB) IEEE conference, Dresden, October 21, 2008.

Analysis of Beamstrahlung Pairs ECFA Workshop Vienna, November 14-17, 2005 Christian Grah.

PHENIX Local Polarimeter PSTP 2007 at BNL September 11, 2007 Yuji Goto (RIKEN/RBRC)

Integrated Radiation Measurement and Radiation Protection of BES Ⅲ Zhang Qingjiang, Wu protection group, accelerator center, IHEP,

Overview of the GlueX Tagger and Photon Beamline..

Detector Monte-Carlo ● Goal: Develop software tools to: – Model detector performance – Study background issues – Calculate event rates – Determine feasibility.

Nov Beam Catcher in KOPIO (H. Mikata Kaon mini worksyop1 Beam Catcher in the KOPIO experiment Hideki Morii (Kyoto Univ.) for the KOPIO.

P. 1Mario Deile – Meeting on Experiment Protection from Beam Failures Protecting TOTEM Mario Deile PH-TOT

IEEE NSS 2007 D.Kramer 1 Very High Radiation Detector for the LHC BLM System based on Secondary Electron Emission Daniel Kramer, Eva Barbara.

Recent Studies on ILC BDS and MERIT S. Striganov APD meeting, January 24.

Notes About MARS background simulations for BTeV A Summary of how far we’ve come and how far we have to go. By DJ Wagner 9/12/98 Vanderbilt University.

11/15/20051 Radiation Protection Issues for ILC (not exhaustive) A. Fassò, N. Noriaki, H. Vincke Radiation Physics.

Simulation comparisons to BLM data E.Skordis On behalf of the FLUKA team Tracking for Collimation Workshop 30/10/2015 E. Skordis1.

Update on radiation estimates for the CLIC Main and Drive beams Sophie Mallows, Thomas Otto CLIC OMPWG.

Radiation Protection studies for the Linac4 / Linac2 interface Joachim Vollaire, DGS-RP 28/09/2015 Linac4 Coordination Meeting.

Radiation study of the TPC electronics Georgios Tsiledakis, GSI.

1 Simulation of Neutron Backgrounds in the ILC Extraction Line Beam Dump Siva Darbha Supervisors: Lewis Keller and Takashi Maruyama.

OUTGOING NEUTRONS IN CALET CALET AIMS AT DETECTING UHE CR ELECTRONS HIGH REJECTION FACTOR FOR PROTONS/NUCLEI NEEDED POSSIBLE IMPROVEMENT RESPECT ‘STANDARD’

1 Giuseppe G. Daquino 26 th January 2005 SoFTware Development for Experiments Group Physics Department, CERN Background radiation studies using Geant4.

AWAKE: D2E for Alexey beam properties Silvia Cipiccia, Eduard Feldbaumer, Helmut Vincke DGS/RP.

W Prototype Simulations Linear Collider Physics & Detector Meeting December 15, 2009 Christian Grefe CERN, Bonn University.

H. Matis, S. Hedges, M. Placidi, A. Ratti, W. Turner [+several students] (LBNL) R. Miyamoto (now at ESSS) H. Matis - LARP CM18 - May 8, Fluka Modeling.

E.B. Holzer BLM Meeting: Q & A March 20, Questions and Answers.

Pedro Brogueira 1, Patrícia Gonçalves 2, Ana Keating 2, Dalmiro Maia 3, Mário Pimenta 2, Bernardo Tomé 2 1 IST, Instituto Superior Técnico, 2 LIP, Laboratório.

N_TOF EAR-1 Simulations The “γ-flash” A. Tsinganis (CERN/NTUA), C. Guerrero (CERN), V. Vlachoudis (CERN) n_TOF Annual Collaboration Meeting Lisbon, December.

3/06/06 CALOR 06Alexandre Zabi - Imperial College1 CMS ECAL Performance: Test Beam Results Alexandre Zabi on behalf of the CMS ECAL Group CMS ECAL.

Simulation and reconstruction of CLAS12 Electromagnetic Calorimeter in GSIM12 S. Stepanyan (JLAB), N. Dashyan (YerPhI) CLAS12 Detector workshop, February.

R.W. Assmann, V. Boccone, F. Cerutti, M. Huhtinen, A. Mereghetti

Benchmarking MAD, SAD and PLACET Characterization and performance of the CLIC Beam Delivery System with MAD, SAD and PLACET T. Asaka† and J. Resta López‡

Measurements and FLUKA Simulations of Bismuth and Aluminum Activation at the CERN Shielding Benchmark Facility(CSBF) E. Iliopoulou, R. Froeschl, M. Brugger,

Neutron and Photon Backscattering from the ILC Beam Dump

LSO Cal Geant4 Simulation

Remote setting of LHC BLM thresholds?

Assessment of BLM thresholds at cold magnets

C.Octavio Domínguez, Humberto Maury Cuna

Radiation Backgrounds in the ATLAS New Small Wheel

CRaTER Science Requirements

Fassò, N. Nakao, H. Vincke Aug. 2, 2005

Higgs Factory Backgrounds

Status of energy deposition studies IR7

Simulation of Neutron Backgrounds in the ILC Extraction Line Beam Dump

Update on Ecal simulation

Background Simulations at Fermilab

CLIC luminosity monitoring/re-tuning using beamstrahlung ?

Presentation transcript:

BLM review Mario Santana Leitner OUTLOOK ON FLUKA SIMULATIONS FOR UDULATOR DAMAGE AND BLM RESPONSE Mario Santana Leitner, Alberto Fassò and Joachim Vollaire Radiation Protection Department Stanford Linear Accelerator Center LCLS Beam Loss Monitor Preliminary Design Review SLAC, January 24, 2008

BLM review Mario Santana Leitner - 2 / 18 - Outline Characterization of demagnetization under radiation fields Radiation showers along the undulator Beam loss monitor response and correlation to losses in the undulator

BLM review Mario Santana Leitner FLUKA geometry SLAC Experiment (9 Nd-Fe-B Samples, 13.7-GeV electron) Characterization of the demagnetization LCLS Permanent Magnet Damage Study; experiment T493 Experiment spokesman: by Heinz-Dieter Nuhn

BLM review Mario Santana Leitner 1.Dose calculated and demagnetization measured are for the whole sample 2.Difference between forward and side samples Characterization of the demagnetization Measured Damage Not Proportional to Dose

BLM review Mario Santana Leitner Sample 1 Neutron fluence in all samples Characterization of the demagnetization Dose Fraction and Neutrons

BLM review Mario Santana Leitner Characterization of the demagnetization Mapping of 2-D Neutron Fluence in Samples

BLM review Mario Santana Leitner Characterization of the demagnetization Mapping of Measurement of 2-D Demagnetization Demagnetization measurements analyzed by Heinz-Dieter Nuhn

BLM review Mario Santana Leitner Characterization of the demagnetization New FLUKA simulations to match demagnetization grid The geometry of the magnets has been re-written to match the detector scoring with the virtual sub-regions detectors for the fluence - Region bin-size 2mm x 2mm Simulations to be sent now Analysis of the results requires some time

BLM review Mario Santana Leitner LCLS model including detailed description of the segments, dumps, magnets, magnetic fields, etc. BLM array just introduced. Radiation showers along the undulator FLUKA model of LCLS

BLM review Mario Santana Leitner Radiation showers along the undulator Magnetic field test. Electron transport. 30 micron displacement in X or Y plane. Further analysis ongoing…

BLM review Mario Santana Leitner BLM response simulation and correlation to losses in the undulator BLM coarse geometric implementation done. - Array of BLM’s at 40 cm from following segment - thin W radiator in the front. What should be the thickness? - What is the thickness of the aluminum wall in the inner surfaces? FLUKA scoring subroutines to be written. Other FLUKA options to be examined. Since Since Biasing destroys correlations: therefore for this option it is necessary to run FLUKA in analog mode.

BLM review Mario Santana Leitner FLUKA features for BLM simulations Command DETECT We call an "event" the energy deposited in a user-defined set of one or more DETECTOR REGIONS by one primary particle and by its secondaries. We call a "signal" the energy deposited in a user-defined set of one or more TRIGGER REGIONS by the same primary particle and secondaries. Output: a distribution of energy deposited per event in the DETECTOR REGIONS in coincidence with a signal larger than a pre-defined cut-off Possible application: to find correlations between dose in BLM and dose in a set of magnets Since Since Biasing destroys correlations: therefore for this option it is necessary to run FLUKA in analog mode.

BLM review Mario Santana Leitner QUENCHING: FLUKA can calculate energy deposition in scintillators corrected for quenching, applying the Birks law. This can allow to predict the correct BLM response in a mixed radiation field of photons, neutrons and other particles OPTICAL PHOTONS: FLUKA can also produce and transport scintillation light if the user provides the wavelength. FLUKA features for BLM simulations Quenching and Optical Photons