10:30 AM–1:30 PM, Thursday, June 7, 2007
TELUS Convention Centre - Macleod D
Chair: A. Landers, Auburn University
Abstract ID: BAPS.2007.DAMOP.H2.1
10:30 AM–11:06 AM
Maya Fabrikant
(University of Nebraska-Lincoln)
Chiral effects in nature exist but are generally difficult to detect. A Univeristy of Nebraska Lincoln experiment to detect electron circular dichroism by sending polarized electrons through a chiral medium has met with difficulties in reducing the instrumental asymmetry below the expected true asymmetry of $\sim$10$^{-4}$. In order to minimize this false asymmetry, a new optical apparatus designed for the production of polarized electrons as been built. It is based on the fast chopping of two spatially separated beams of light with orthogonal linear polarizations which are recombined and passed through a quarter wave plate to yield a single beam with rapidly flipping helicity. New methods for measuring the helicity-dependent intensity asymmetry in this apparatus have been developed. These methods show that the main reason for large instrumental asymmetries is drift due to laser polarization instability. Active electro-optical feedback has been successfully employed to maintain this asymmetry below 2x10$^{-5}$.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DAMOP.H2.1