Difference between revisions of "20170922-JleicIonIntegration"

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** Draft initial machine segment documentation
 
** Draft initial machine segment documentation
 
** Includes upload of relevant (even draft) best present accelerator segment lattice files to svn
 
** Includes upload of relevant (even draft) best present accelerator segment lattice files to svn
 +
*** Document should be consistent with, and include references to, svn lattice file version(s)
 
** Zip file of "template" (Todd's Booster tech note) located [http://www.toddsatogata.net/JLEIC/JleicAcceleratorSegmentTemplate.zip here]
 
** Zip file of "template" (Todd's Booster tech note) located [http://www.toddsatogata.net/JLEIC/JleicAcceleratorSegmentTemplate.zip here]
 
** Iterations, if needed, at Fri Oct 20 integration/pCDR meeting
 
** Iterations, if needed, at Fri Oct 20 integration/pCDR meeting
Line 29: Line 30:
 
* Booster to Collider Transfer Line (?)
 
* Booster to Collider Transfer Line (?)
 
* Ion Collider Ring (Vasiliy)
 
* Ion Collider Ring (Vasiliy)
 +
** [[Media:Ion_collider_ring_to_do_list_22sep17.ppt‎ | Ion_collider_ring_to_do_list_22sep17.ppt‎]]
 
* CEBAF (Jiquan)
 
* CEBAF (Jiquan)
 
* CEBAF to Collider Transfer Line (Yves)
 
* CEBAF to Collider Transfer Line (Yves)
Line 34: Line 36:
 
* Low Energy Cooler (Yuhong)
 
* Low Energy Cooler (Yuhong)
 
* High Energy Cooler (Steve)
 
* High Energy Cooler (Steve)
 +
 +
== pCDR Accelerator Segment items from Engineering (Tim) ==
 +
* Ion Sources and Linac
 +
** Status: Limited to basic element list and cost information from Jan, 2015. Basic origin defined.
 +
** Would like to get models of elements to develop basic CAD layout in NX.
 +
** Space and tunnel/vault sizing
 +
** Summarize power requirements and cooling needs – parameterization.
 +
* Linac to Booster Transfer Line
 +
** Status: Undefined.
 +
** Get lattice file
 +
** Develop layout
 +
** Define start point and connection point to Ion Booster Ring
 +
** Size and layout of tunnel to connect Ion LINAC tunnel/vault to Ion Booster Tunnel
 +
** Diagnostics???
 +
** Other parameterization???
 +
* Ion Booster
 +
** Status: Origin defined. Based on TAMU 1.2m model dipole.
 +
** Development of tunnel
 +
** Transition transfer lines in and out
 +
** Kicker
 +
** Diagnostics???
 +
** Abort/dump system???
 +
** Other parameterization???
 +
* Booster to Collider Transfer Line
 +
** Undefined.
 +
* Ion Collider Ring
 +
** Status: Origin defined – at IP. Basic tunnel layout complete – need to update with overall SF magnet model.
 +
** Updated lattice file and layout – look at % filled.
 +
** Resize tunnel to accommodate RF Cavity spacing from floor/wall
 +
** Feasibility / sizing of SF magnets (11.4m model of dual 4m dipole/quad combo in a single cryostat)
 +
** Diagnostics???
 +
** Abort/dump system???
 +
** Other parameterization???
 +
** RF HPA system basic model/layout – basic assessment of routing waveguides from surface to tunnel
 +
* CEBAF
 +
** Status: Origin of CEBAF is the Origin of all JLEIC Site Layout
 +
** Need to assess CEBAF Reliability/Availability and its impact on JLEIC Reliability/Availability
 +
** Need definition of operational scenario, time to fill ECR, top off rate, etc.
 +
* CEBAF to Collider Transfer Line
 +
** Status: Very old and outdated lattice file from Yves based on PEP-II LER Dipoles – note that it does not line up with position of the Electron Collider Ring as it sits now
 +
** Get updated lattice file
 +
** Develop layout
 +
** Based off CEBAF Origin – needs start point and connection point to Electron Collider Ring – how does it enter Electron Collider Ring (ideally from above, but latest thought is from below so as not to affect Electron Collider Ring to Ion Collider Ring stacked spacing)
 +
** Size and layout of tunnel to connect CEBAF to Collider Tunnel
 +
** Diagnostics???
 +
** Other parameterization???
 +
* Electron Collider Ring
 +
** Status: Origin defined – IP. Basic tunnel layout complete. Model of PEP-II RF Cavity ready for updated lattice. Assessment of “Moving Magnets” for synchronization done – can be adapted to new lattice and magnets. Vacuum elements are PEP-II style.
 +
** Updated lattice file and layout – look at % fill (or free space for additional, not yet defined items)
 +
** Resize tunnel to accommodate PEP-II RF Cavity spacing from floor/wall
 +
** Add synchronization chicanes to layout
 +
** Feasibility / sizing of new magnets
 +
** Diagnostics???
 +
** Abort/dump system???
 +
** Other parameterization???
 +
** RF HPA system basic model/layout – basic assessment of routing waveguides from surface to tunnel
 +
* Low Energy Cooler
 +
* High Energy Cooler
 +
* Interaction Region
 +
** Status: Region layout. 1st cut at IR FFQs and SD magnets – need to assess and iterate. Current model of IR beam pipe – ready for Impedance modeling. Magnet coils modeled.
 +
** Iterate on magnet models
 +
** Look at additional magnets for details – skew quads, correctors, anti-solenoids
 +
** Baseline definition for supports, cryostats, etc.
 +
** Magnet interactions
 +
* Engineering Topics
 +
** Superferric Magnets
 +
** Normal Magnets
 +
** SRF
 +
** Crab Cavities
 +
** Normal Conducting RF
 +
** Feedback systems
 +
** Diagnostics
 +
** Controls

Latest revision as of 10:55, 22 September 2017

Sep 22 2017 JLEIC Ion Integration Meeting

pCDR Planning

  • Presented pCDR planning slides at Sep 13-15 AAC meeting
  • Bob McKeown also showed the current JLEIC strategy and organization
    • Todd and Rik are leading documentation and pCDR efforts
    • The pCDR is not just a technical design report
  • A portion of the pCDR is consistent technical design of all accelerator segments
  • The most current (very drafty) pCDR outline is located here (Dropbox link)

Near Term Action Items

  • By Tue Oct 3
    • Identify and prioritize remaining work needed on accelerator segments to deliver relevant consistent pCDR draft sections by April/May 2018
    • Will review and collate at next integration/pCDR meeting (Fri Oct 6)
  • By Tue Oct 31
    • Draft initial machine segment documentation
    • Includes upload of relevant (even draft) best present accelerator segment lattice files to svn
      • Document should be consistent with, and include references to, svn lattice file version(s)
    • Zip file of "template" (Todd's Booster tech note) located here
    • Iterations, if needed, at Fri Oct 20 integration/pCDR meeting

pCDR Accelerator Segment Needs

  • Polarized Ion Source (Amy)
  • Heavy Ion Source (Amy)
  • Ion RFQs/Linac (Brahim)
  • Linac to Booster Transfer Line (?)
  • Ion Booster (Ed/Todd)
  • Booster to Collider Transfer Line (?)
  • Ion Collider Ring (Vasiliy)
  • CEBAF (Jiquan)
  • CEBAF to Collider Transfer Line (Yves)
  • Electron Collider Ring (Fanglei)
  • Low Energy Cooler (Yuhong)
  • High Energy Cooler (Steve)

pCDR Accelerator Segment items from Engineering (Tim)

  • Ion Sources and Linac
    • Status: Limited to basic element list and cost information from Jan, 2015. Basic origin defined.
    • Would like to get models of elements to develop basic CAD layout in NX.
    • Space and tunnel/vault sizing
    • Summarize power requirements and cooling needs – parameterization.
  • Linac to Booster Transfer Line
    • Status: Undefined.
    • Get lattice file
    • Develop layout
    • Define start point and connection point to Ion Booster Ring
    • Size and layout of tunnel to connect Ion LINAC tunnel/vault to Ion Booster Tunnel
    • Diagnostics???
    • Other parameterization???
  • Ion Booster
    • Status: Origin defined. Based on TAMU 1.2m model dipole.
    • Development of tunnel
    • Transition transfer lines in and out
    • Kicker
    • Diagnostics???
    • Abort/dump system???
    • Other parameterization???
  • Booster to Collider Transfer Line
    • Undefined.
  • Ion Collider Ring
    • Status: Origin defined – at IP. Basic tunnel layout complete – need to update with overall SF magnet model.
    • Updated lattice file and layout – look at % filled.
    • Resize tunnel to accommodate RF Cavity spacing from floor/wall
    • Feasibility / sizing of SF magnets (11.4m model of dual 4m dipole/quad combo in a single cryostat)
    • Diagnostics???
    • Abort/dump system???
    • Other parameterization???
    • RF HPA system basic model/layout – basic assessment of routing waveguides from surface to tunnel
  • CEBAF
    • Status: Origin of CEBAF is the Origin of all JLEIC Site Layout
    • Need to assess CEBAF Reliability/Availability and its impact on JLEIC Reliability/Availability
    • Need definition of operational scenario, time to fill ECR, top off rate, etc.
  • CEBAF to Collider Transfer Line
    • Status: Very old and outdated lattice file from Yves based on PEP-II LER Dipoles – note that it does not line up with position of the Electron Collider Ring as it sits now
    • Get updated lattice file
    • Develop layout
    • Based off CEBAF Origin – needs start point and connection point to Electron Collider Ring – how does it enter Electron Collider Ring (ideally from above, but latest thought is from below so as not to affect Electron Collider Ring to Ion Collider Ring stacked spacing)
    • Size and layout of tunnel to connect CEBAF to Collider Tunnel
    • Diagnostics???
    • Other parameterization???
  • Electron Collider Ring
    • Status: Origin defined – IP. Basic tunnel layout complete. Model of PEP-II RF Cavity ready for updated lattice. Assessment of “Moving Magnets” for synchronization done – can be adapted to new lattice and magnets. Vacuum elements are PEP-II style.
    • Updated lattice file and layout – look at % fill (or free space for additional, not yet defined items)
    • Resize tunnel to accommodate PEP-II RF Cavity spacing from floor/wall
    • Add synchronization chicanes to layout
    • Feasibility / sizing of new magnets
    • Diagnostics???
    • Abort/dump system???
    • Other parameterization???
    • RF HPA system basic model/layout – basic assessment of routing waveguides from surface to tunnel
  • Low Energy Cooler
  • High Energy Cooler
  • Interaction Region
    • Status: Region layout. 1st cut at IR FFQs and SD magnets – need to assess and iterate. Current model of IR beam pipe – ready for Impedance modeling. Magnet coils modeled.
    • Iterate on magnet models
    • Look at additional magnets for details – skew quads, correctors, anti-solenoids
    • Baseline definition for supports, cryostats, etc.
    • Magnet interactions
  • Engineering Topics
    • Superferric Magnets
    • Normal Magnets
    • SRF
    • Crab Cavities
    • Normal Conducting RF
    • Feedback systems
    • Diagnostics
    • Controls