Undergraduate Honors Thesis

Abstract

•  

  The viability of a plasma wakefield accelerator is limited by the projected emittance growth of an accelerated electron beam due to chromatic phase spreading. This can be mitigated through beam-matching via use of a plasma lens, which offers greatly-increased performance when compared to conventional quadrupole magnetic focusing. We conducted experiments using a proposed cylindrical-lens telescope with multiple laser systems, and found that in stallation and alignment of this lens system is possible without high-precision components. A properly-sized incident laser beam, focused through these lenses, reaches the optimal dimensions to ionize a plasma lens for use in a plasma wakefield accelerator. We measured the best focus to have a minor axis of 34.5 ± 3.45 μm and a major axis of 120.75 ± 3.45 μm, which compares favorably with the predicted minor axis of 37.4 μm and major axis of 118.5 μm.

   

   

Creator

• Guerrero, Matthew P.

Date Awarded

• 2024-04-02

Academic Affiliation

• Physics

Advisor

• Litos, Michael D

Committee Member

• Beale, Paul D

Granting Institution

• University of Colorado Boulder

Subject

• Wakefield acceleration
• Emittance preservation,
• Cylindrical lenses
• Plasma lens

Last Modified

• 2024-04-16

Resource Type

• Undergraduate Honors Thesis

Rights Statement

• In Copyright

Language

• English [eng]

License

• Creative Commons BY Attribution 4.0 International

Relationships

In Collection:

• Arts and Sciences Honors Program

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