mstaib_physics_2017.pdf (25.25 MB)
Calibrations for Charged Particle Tracking and Measurments of ω Photoproduction with the GlueX Detector
The GlueX experiment is a new experimental facility at Jefferson Lab in Newport News, VA. The experiment aims to map out the spectrum of hybrid mesons in the light quark sector. Measurements of the spin-density matrix elements in w photoproduction are performed with a linear polarized
photon beam on an unpolarized proton target, and presented in bins of Mandelstam t for beam energies of 8:4 - 9:0 GeV. The spin-density matrix elements are exclusively measured through two decays of the w meson: w --> π+ π - and π0 and w --> π0 y. A description of the experimental apparatus
is presented. Several methods used in the calibration of the charged particle tracking system are described. These measurements greatly improve the world statistics in this energy range. These are the first results measured through the w --> πo y decay at this energy. Results are generally
consistent with a theoretical model based on diffractive production with Pomeron and pseudoscalar exchange in the t-channel.
photon beam on an unpolarized proton target, and presented in bins of Mandelstam t for beam energies of 8:4 - 9:0 GeV. The spin-density matrix elements are exclusively measured through two decays of the w meson: w --> π+ π - and π0 and w --> π0 y. A description of the experimental apparatus
is presented. Several methods used in the calibration of the charged particle tracking system are described. These measurements greatly improve the world statistics in this energy range. These are the first results measured through the w --> πo y decay at this energy. Results are generally
consistent with a theoretical model based on diffractive production with Pomeron and pseudoscalar exchange in the t-channel.
History
Date
2017-09-20Degree Type
- Dissertation
Department
- Physics
Degree Name
- Doctor of Philosophy (PhD)