Difference between revisions of "Magnetized Gun References and Documents"

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= '''Presentations''' =
 
= '''Presentations''' =
  
* ''Magnetized Beam Update (LDRD)''
+
* ''Update on Development of High Current Bunched Electron Beam from Magnetized DC Photogun''
 
R. Suleiman and Matt Poelker, JLEIC Collaboration Meeting, Fall 2016.
 
R. Suleiman and Matt Poelker, JLEIC Collaboration Meeting, Fall 2016.
 
: [[media:Magnetized_JLEIC_Coll_Oct_2016_Suleiman.pdf]]
 
: [[media:Magnetized_JLEIC_Coll_Oct_2016_Suleiman.pdf]]

Revision as of 08:16, 29 September 2016

Cathode Solenoid

  • Solenoid Drawings:
  1. media:haysg_JL0034767-LDRD_RIGHT_COIL.pdf
  2. media:haysg_JL0035043-LDRD_LEFT_COIL.pdf
  3. media:haysg_JL0034810-LDRD_SOLENOID_COIL_ASSEMBLY.pdf


  • Jay Benesch, A quick and dirty magnet design for the magnetized beam LDRD proposal (JLab Tech Note 15-043, January 17, 2016): media:LDRD_Solenoid_model.pdf


  • Field Maps:
  1. Bz(0,0,z): media:LDRD_map_Bz_puck_moly.txt – no steel
  2. Bz(0,0,z): media:LDRD_map_Bz_puck_steel.txt – steel runs from z=4.8 to z=5.8 cm
  3. Bx, By, Bz(x,y,z): media:LDRD_map_BxByBz_puck_moly.txt.gz.txt (change .gz.txt to .gz) – no steel
  4. Bx, By, Bz(x,y,z): media:LDRD_map_BxByBz_puck_steel.txt.gz.txt (change .gz.txt to .gz) – steel runs from z=4.8 to z=5.8 cm



Presentations

  • Update on Development of High Current Bunched Electron Beam from Magnetized DC Photogun

R. Suleiman and Matt Poelker, JLEIC Collaboration Meeting, Fall 2016.

media:Magnetized_JLEIC_Coll_Oct_2016_Suleiman.pdf
media:Magnetized_JLEIC_Coll_Oct_2016_Suleiman.pptx


  • Magnetized Beam Simulations (LDRD)

Fay Hannon, JLEIC Collaboration Meeting, Spring 2016.

media:JLEIC_Collab_Meeting_March2016_Fay.pdf
media:JLEIC_Collab_Meeting_March2016_Fay.pptx


  • Magnetized Beam Update (LDRD)

R. Suleiman and Matt Poelker, JLEIC Collaboration Meeting, Spring 2016.

media:Magnetized_JLEIC_Coll_March2016_Suleiman.pdf
media:Magnetized_JLEIC_Coll_March2016_Suleiman.pptx


  • Generation and Characterization of Magnetized Bunched Electron Beam from a DC High Voltage Photogun

R. Suleiman et al., abstract submitted to APS April 2016 meeting [1]

media:Suleiman_APS_mtg_April_2016_Salt_Lake_City.pdf media:APS_April16_MagBeam.pdf
media:Suleiman_APS_April2016_poster.pdf
media:Suleiman_APS_April2016_poster.pptx


  • LDRD: Magnetized Source

R. Suleiman and Matt Poelker, JLEIC Nuclear Physics meeting, November 20, 2015.

media:Magnetized_JLEIC_NP_Nov2015.pdf
media:Magnetized_JLEIC_NP_Nov2015.pptx


  • Development of High Current Bunched Magnetized Electron DC Photo-gun

R. Suleiman and Matt Poelker, MEIC Collaboration Meeting, Fall 2015.

media:Magnetized_Suleiman_MEIC_Coll_Fall2015.pdf
media:Magnetized_Suleiman_MEIC_Coll_Fall2015.pptx


  • Generation and Characterization of Magnetized Bunched Electron Beam from DC Photogun for MEIC Cooler

R. Suleiman and Matt Poelker, MEIC Accelerator R&D Meeting, April 16, 2015.

media:LDRD_MagBeam_talk_D_Meeting_16April2015.pdf
media:LDRD_MagBeam_talk_D_Meeting_16April2015.pptx


  • 200 mA Magnetized beam for MEIC Electron Cooler (and Backup Slides - MEIC Polarized Electron Source)

R. Suleiman and Matt Poelker, MEIC Collaboration Meeting, Spring 2015.

media:MEIC_Coll_Spring2015_Magnetized_Gun_Suleiman.pdf
media:MEIC_Coll_Spring2015_Magnetized_Gun_Suleiman.pptx


  • High Current Electron Source for Cooling

R. Suleiman, MEIC Accelerator Design Review, January 15, 2014.

media:Suleiman_MEIC_ElectronSource.pdf
media:Suleiman_MEIC_ElectronSource.pptx


References

  • Round-to-Flat Beam Transformation and Applications

Yin-E Sun, COOL15 presentation, media:Yin-E_Sun_COOL15.pdf media:Yin-E_COOL15.pptx


  • Generation and Dynamics of Magnetized Beams for High-Energy Electron Cooling

P. Piot, EIC14 Proceedings, media:Piot_EIC14.pdf

Talk Slides: media:TUAAUD3_TALK.PDF media:TUAAUD3_TALK.pptx


  • Generation of angular-momentum-dominated electron beams from a photoinjector

Y.-E Sun et al., Phys. Rev. ST Accel. Beams 7, 123501 (2004) [2] media:PhysRevSTAB.7.123501.pdf


  • Angular-momentum-dominated electron beams and flat-beam generation

Yin-e Sun (Chicago U.) FERMILAB-THESIS-2005-17 media:fermilab-thesis-2005-17.PDF


  • Photoinjector generation of a flat electron beam with transverse emittance ratio of 100

P. Piot et al., Phys. Rev. ST Accel. Beams 9, 031001 (2006) [3] media:PhysRevSTAB.9.031001.pdf


  • Simple algorithm for designing skew-quadrupole cooling configurations

B. Carlsten and K. Bishofberger, New J. Phys. 8, 286 (2006) [4] media:NewJPhys.8.286.pdf


  • Round-to-flat transformation of angular-momentum-dominated beams

Kwang-Je Kim, Phys. Rev. ST Accel. Beams 6, 104002 (2003) [5] media:PhysRevSTAB.6.104002.pdf


  • A low emittance, flat-beam electron source for linear colliders

R. Brinkmann, Y. Derbenev, and K. Flöttmann, Phys. Rev. ST Accel. Beams 4, 053501 (2001) [6] media:PhysRevSTAB.4.053501.pdf


  • Understanding the focusing of charged particle beams in a solenoid magnetic field

V. Kumar, Am. J. Phys. 77, 737 (2009) media:AJP000737.pdf


  • Optical principles of beam transport for relativistic electron cooling

A. Burov et al., Phys. Rev. ST Accel. Beams 3, 094002 (2000) [7] media:PhysRevSTAB.3.094002.pdf


  • Advanced optical concepts for electron cooling

Ya. Derbenev, Nucl. Inst. Meth. A 441 223 (2000) [8] media:NuclInstMethA.441.223.pdf


  • Adapting Optics for High Energy Electron Cooling

Ya. Derbenev, University of Michigan Report No. UM-HE-98-04, (1998) media:UM-HE-98-04-A.pdf