Theses most similar to High precision measurement of the proton elastic form factor ratio at low Q² (Zhan, Xiaohui; 2010) read it
Precision measurement of the proton electric to magnetic form factor ratio with BLAST
Crawford, Christopher Blair (2005)
- Advisor: Haiyan Gao
- Department of Physics
A measurement of spin-dependent asymmetries in quasielastic scattering of polarized electrons from polarized helium-3
Hansen, Jens-Ole, 1965- (1995)
- Advisor: Richard G. Miller
- Department of Physics
A measurement of the neutron magnetic form factor Gn̳M̳ form quasi-elastic ²[right arrow]H ([right arrow]e, e') at low Q²
Meitanis, Nikolas (Nikolas C.) (2006)
- Advisor: Richard Milner
- Department of Physics
The spin dependent momentum distribution of the neutron and the proton in helium-3
Lee, Kevin Kar (1996)
- Advisor: Richard Milner
- Department of Physics
Measurement of the electric form factor of the neutron at low momentum transfers using a vector polarized deuterium gas target at BLAST
Ziskin, Vitaliy (2005)
- Advisor: Richard Milner
- Department of Physics
Analysis of scattered protons in deuteron electrodisintegration with a polarized electron beam and an internal polarized target
Maschinot, Aaron J. (Aaron Joseph) (2005)
- Advisor: Robert P. Redwine
- Department of Physics
Induced final state proton polarization in neutral pion electroproduction near the [delta](1232) resonance at Q² = -0.126 GeV²/c²
Warren, Glen Andrew (1997)
- Advisor: William Bertozzi
- Department of Physics
Single and double polarization observables in the electrodisintegration of the deuteron from BLAST
DeGrush, Adam (Adam Jon) (2010)
- Advisor: Robert P. Redwine
- Department of Physics
Recoil polarization measurements of the proton electromagnetic form factor ratio to high momentum transfer
Puckett, Andrew James Ruehe (2010)
- Advisors: Shalev Gilad; William Bertozzi
- Department of Physics
Double spin asymmetry AL̳T̳ in charged pion production from deep inelastic scattering on a transversely polarized ³He target
Huang, Ji (2012)
- Advisors: Shalev Gilad; William Bertozzi
- Department of Physics