Difference between revisions of "HV insulator for 500 kV"
(Created page with "== HV insulator for 500 kV: == ** Exploring the use of the receptacle and the sizes of the SF6 spool Media:HV_insulator-1st_month.pptx") |
|||
(One intermediate revision by the same user not shown) | |||
Line 1: | Line 1: | ||
== HV insulator for 500 kV: == | == HV insulator for 500 kV: == | ||
− | ** Exploring the use of the receptacle and the sizes of the SF6 spool [[Media:HV_insulator-1st_month.pptx]] | + | Work scope summary: |
+ | The purpose of this work is to demonstrate an inverted insulator + high voltage cable assembly that can be used to reliably apply 500 kV bias voltage to the a test electrode, with no high voltage breakdown inside or outside the vacuum chamber, such that the developed system can be implemented in a future photogun capable of delivering spin polarized beam from GaAs photocathodes at 350 kV without measurable field emission. This photogun design could then be used for generating a beam of spin-polarized electrons to drive a spin-polarized positron source for high energy nuclear physics experiments like the Continuous Electron Beam Accelerator Facility at JLab, the proposed Electron Ion Collider at BNL, and for positron annihilation studies. | ||
+ | |||
+ | *[[Media:Proposal Lab 20-2310 narrative submitted Hernandez-Garcia & Poelker.pdf]] | ||
+ | * Exploring the use of the receptacle and the sizes of the SF6 spool [[Media:HV_insulator-1st_month.pptx]] |
Latest revision as of 13:27, 4 August 2021
HV insulator for 500 kV:
Work scope summary: The purpose of this work is to demonstrate an inverted insulator + high voltage cable assembly that can be used to reliably apply 500 kV bias voltage to the a test electrode, with no high voltage breakdown inside or outside the vacuum chamber, such that the developed system can be implemented in a future photogun capable of delivering spin polarized beam from GaAs photocathodes at 350 kV without measurable field emission. This photogun design could then be used for generating a beam of spin-polarized electrons to drive a spin-polarized positron source for high energy nuclear physics experiments like the Continuous Electron Beam Accelerator Facility at JLab, the proposed Electron Ion Collider at BNL, and for positron annihilation studies.
- Media:Proposal Lab 20-2310 narrative submitted Hernandez-Garcia & Poelker.pdf
- Exploring the use of the receptacle and the sizes of the SF6 spool Media:HV_insulator-1st_month.pptx