Fast losses at collimators during 16L2 dumps

Slides:

Advertisements

Similar presentations

Combined cleaning in IR3 - MD results and simulations Adriana Rossi R.W.Assmann, R. Bruce, F. Burkart, M. Cauchi, D. Deboy, L. Lari, S. Redaelli, G. Valentino,

Advertisements

DS Quench TEST 2  MOTIVATION and METHOD: 1. Achieve 500kW on beam 1 – TCP7 collimators.(so far 500kW with beam 2 and 235kW over 1s with beam 1 were reached.

Beam commissioning strategy Global machine checkout Essential 450 GeV commissioning System/beam commissioning Machine protection commissioning.

Friday, h10: Stable beams at 1.38 TeV. 09h03: Beam dump.  One bunch dropped too much in intensity and gave BPMS interlock (dump protection). 10h36:

Mariusz Sapinski BI/BL Acknowledgements: 1 Planning of quench tests - QTSWG Latest news concerning planning of quench tests Quench Test Strategy.

External Review on LHC Machine Protection, CERN, Collimation of encountered losses D. Wollmann, R.W. Assmann, F. Burkart, R. Bruce, M. Cauchi,

Off-momentum tail scraping for passive abort gap cleaning (MD 444) D. Mirarchi, R. Bruce, S. Redaelli On behalf of the LHC Collimation Team LHC Study Working.

LHC Utilities & Facilities WAO Daejeong 12/04 – 16/04/2010 Markus Albert on behalf of LHC Operations.

LHC 23 June :07: Started injection cleaning with B1. 08:13: Fault on MKI B2. –MKI Beam 2 in P8 had a breakdown at 07:49 during the SoftStart process.

#1 Energy matching It is observed that the orbit of an injected proton beam is horizontally displaced towards the outside of the ring, by about  x~1 mm.

Nominal intensity bunches ● First ramp with nominal intensity bunches suffered from an instability appearing around 1.8 TeV. ● Nominal intensity bunches.

Mariusz Sapinski BI/BL Acknowledgements: 1 Planning of quench tests - LMC158 Draft planning of beam induced quench tests at the end of 2013 run LHC Machine.

LHC Crystal MD 22/09/2015 – LSWG #7 R. Rossi for the LHC Collimation team and the UA9 Collaboration.

LHC Collimation Working Group – 20 February 2012 Collimator Setup Software in 2012 G. Valentino R. W. Assmann, S. Redaelli and N. Sammut.

LHC Collimation Working Group – 02 April 2012 Results from Beam-Based Collimator Alignment G. Valentino, R. W. Assmann, R. Bruce, F. Burkart, M. Cauchi,

LHC status Wednesday 15 th July 2015 Coordination: Wolfgang Hofle, Mike Lamont.

09:25 Operator dump fill #2178, integrated lumi 107/108/18 nb-1. Trip of RQ4.R6 (fire heaters discharged) just after the beam dump but the QPS gave no.

Shortened program (2 days), as decided in LMC. MD program worked very well  all MD’s on plan with ~foreseen beam time. LHC in very good shape with excellent.

Improving Collimator Setup Efficiency LHC Beam Operation Committee, G. Valentino, R.W. Assmann, R. Bruce, F. Burkart, M. Cauchi, D. Deboy, S.

LHC Machine Operational Status and Plans LHCC, 22nd September 2010 Steve Myers (On behalf of the LHC team and international collaborators)

Injection status W. Bartmann, C. Bracco, B. Goddard, V. Kain, A. Macpherson, M. Meddahi, S. Redaelli, J. Uythoven, J. Wenninger LIBD Meeting, 20 th Sept.

Progress with Beam Report to LMC, Machine Coordination W10: Mike Lamont – Ralph Assmann Thanks to other machine coordinators, EIC’s, operators,

Benchmarking Headtail with e-cloud observations with LHC 25ns beam H. Bartosik, W. Höfle, G. Iadarola, Y. Papaphilippou, G. Rumolo.

AB-ABP/LHC Injector Synchrotrons Section CERN, Giovanni Rumolo 1 Preliminary results of the E-Cloud Instability MDs at the SPS G. Rumolo, in.

LHC Collimation Working Group Monday, 21 March 2016 Analysis of collimator BPMs in the 2015 run A.Valloni, G. Valentino with input from R. Bruce, A. Mereghetti,

Aperture measurements during LHC commissioning 2017

Results of the 2007 BLM hardware tests in LSS5

Use of a Diamond BLM System in the LHC Ring

Ralph Assmann, Giulia Papotti, Frank Zimmermann 25 August 2011

BEAM LOSS MONITORING SYSTEM

16L2 losses indicate UFO type 2

Use of a Diamond BLM System in the LHC Ring

Cryo Problem MD Planning Tue (1.11.) C B Day Time MD MP Tue 01:00

Potential failure scenarios that can lead to very fast orbit changes and machine protection requirements for HL-LHC operation Daniel Wollmann with input.

dBLM Hardware and Signal

MD2036: UFO dynamics studies and UFO fast detection

Fast BLM acquisition system

Saturday 21st April 00:33 Interlock during ramp on BLM HV

LHC injection W. Bartmann, M.J. Barnes, C. Bracco, F. Burkart, E. Carlier, B. Goddard, V. Kain, R. Steerenberg, L. Stoel, F. Velotti, C. Wiesner, C. Xu.

Update on multi-turn particle debris tracking

Results from crystal H on Beam 2

MD2490: Measurement of the TMCI Threshold at Flat-Top

Halo scraping and loss rates at collimators

Energy deposition studies in IR7 for HL-LHC

BEAM LOSS MONITORING SYSTEM

FCC-hh injection group 7

Fill 1410 revisited Peak luminosity 1.4e32 Beam current 2.68/2.65 e13

LHC Morning Meeting - G. Arduini

Tuesday 22nd January - morning

LHC Morning Meeting - G. Arduini

Summary of week 44 Aims of week 44 J. Wenninger & J. Uythoven

Monday – recovery from MKI flashover

LHC commissioning Week 38

LHC Injection and Dump Protection

Summary of Week 16 G. Arduini, J. Wenninger

Scrubbing progress - 10/12/2012

Friday :00 machine setup for luminosity run. Better b-to-b stability from injectors. 01:58 stable run with 228 bunches 11:00 luminosity leveling.

Yesterday morning Held 1647 for a while – SPS kicker problem

Wednesday 03/11 – The Plan Finish electron-cloud program:

Summary Thursday h21: Stable beams fill #1303.

MD#2 News & Plan Tue – Wed (19. – 20.6.)

Scrubbing progress - 08/12/2012

Monday :15 fill 3523 dumped by BPMs IP6

Fri :52 Stable beams fill #2536

Wednesday h18: 228b fill lost just before start of ramp.

Thursday - setup 10:00 Starting pre-cycle. 11:30 Injection.

Tuesday 6th April 8:00 Injection studies 16:00 RF studies

Saturday 15th May One bunch 1 e11 per beam 09:57: start ramp

Powering scheme for Hollow Electron Lens

Saturday Morning used to complete the loss maps and asynch dumps (with RPs). All loss maps OK (B. Salvachua), but the off-p cleaning for B1 (Lead) was.

Presentation transcript:

Fast losses at collimators during 16L2 dumps Arek Gorzawski & Rudiger Schmidt With a lots of inputs from: S. Redaelli, N. Fuster Martinez, H. Garcia Morales, D. Wollman, C. Xu and C. Zamantzas BLM WG 10/10/2017

Fast losses at collimators during 16L2 dumps Outline Setup of the dBLMs in IR7 Overview and observations for four loss cases Conclusions Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps System layout dBLMs in IR7 are installed at four locations: At the primary collimators (TCP), 9m downstream for B1, 8m downstream for B2 At the crystal collimators, 120m downstream for B1, 49m downstream for B2 dBLMs in 16L2 are installed at two locations, Beam1 and Beam2 Triggering of the continuous (waveform) data acquisition: At the primary collimators and 16L2, via PM event (dump trigger) 100e6 of points with 1.6ns (dead time ~1.5min) Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Case studies Fill 6094, 6.5TeV Fill 6101, 1.1TeV Fill 6173, 6.5 TeV, 8b4e Fill 6256, 6.5 TeV, 8b4e, dBLM in 16L2 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps 17 Aug 2017 6.5 TeV Fill 6094 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6094, 17/08 6.5 TeV, 17-AUG-2017 14.58.42.086000 6094 6499320 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6094, 17/08 6.5 TeV, Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6094, 17/08 6.5 TeV, Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps dBLM overview Fill 6094, 17/08 6.5 TeV, Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Integrated Losses Fill 6094, 17/08 6.5 TeV, Rising slope after longer (~AG) gap Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps 19 Aug 2017 1.1 TeV Fill 6101 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6101, 19/08 1.1 TeV, Losses from UFO Type 2 measured by BLM in 16L2 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6101, 19/08 1.1 TeV, Protons become unstable Losses from UFO Type 2 measured by BLM in 16L2 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6101, 19/08 1.1 TeV, Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps dBLM Loss overview Fill 6101, 19/08 1.1 TeV, 10 ms Protons become unstable 2.4 ms Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Integrated losses Fill 6101, 19/08 1.1 TeV, Rising slope after longer (~AG) gap 15 us Full beam, bunch by bunch Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6101, 19/08 1.1 TeV, 15 us 48b First few bunches of each of the 48 batch has higher losses Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps 8.9 ms 10 ms Fill 6101, 19/08 1.1 TeV, BPM PM DATA Oscillations in h-plane Increased oscillation (tune freq) in the concerned plane (Horizontal, up part) during the instability time (10ms). Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps 6 Sep 2017 6.5 TeV Fill 6173 8b4b Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6173, 6/09 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6173, 6/09 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6173, 6/09 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6173, 6/09 6.5 TeV, 8b4e scheme 3 ms Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps dBLMs Overview Fill 6173, 6/09 6.5 TeV, 8b4e scheme 3 ms 100 us Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps dBLMs Overview (2) Fill 6173, 6/09 6.5 TeV, 8b4e scheme One turn 100 us Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Integrated losses Fill 6173, 6/09 6.5 TeV, 8b4e scheme Rising slope after AG + small after 30b LHC INJ gaps Full beam, bunch by bunch Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Integrated loss (2) Fill 6173, 6/09 6.5 TeV, 8b4e scheme Normalized to the sqrt(emittance) Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps 30 Sep 2017 6.5 TeV Fill 6256 8b4e Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6256, 30/90 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6256, 30/90 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Fill 6256, 30/90 6.5 TeV, 8b4e scheme Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps dBLMs Overview Fill 6256, 30/90 6.5 TeV, 8b4e scheme Vertical scale to be verified with BE/BI! Different connection configuration between IR7 and 16L2 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Integrated losses Fill 6256, 30/90 6.5 TeV, 8b4e scheme dBLMs @ TCP Rising slope after AG + some 30b LHC INJ gaps dBLMs @ 16L2 Fast losses at collimators during 16L2 dumps

Fast losses at collimators during 16L2 dumps Conclusions Saturation effect in IR7 discards the data after certain threshold but the beginning of the loss reveal some observations: Observed cleaning effect (when gap > ~300bunches) Multiple loss peaks Correlation between TCP and the 16L2 losses require still some action. Amplification and attenuation difference to be clarified – to get the loss ratio Loss pattern different – no rising slope! Fast losses at collimators during 16L2 dumps