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Superelastic electron scattering within a magnetic angle changer: determination of the angular momentum transferred during electron excitation over all scattering angles

Martyn Hussey, University of Manchester
Andrew James Murray, University of Manchester
William R. MacGillivray, Southern Cross University
George C. King, University of Manchester

Abstract

By utilising super-elastic electron scattering from laser excited atoms together with a new Magnetic Angle Changing device, it is possible to determine the differential cross sections for excitation of atoms by electron impact over the complete scattering geometry. In the experiments described here, these techniques are combined to reveal the angular momentum transferred to calcium atoms during electron excitation to the 41P1 state, from near zero degrees to beyond 180 degrees for the first time. The results significantly extend all previous data, and are compared to calculations based on a distorted wave Born approximation by Stauffer and colleagues. The experimental techniques are discussed, and results are presented for electron energies of 45eV and 55eV.

Suggested Citation

Post-print version of: Hussey, M, Murray, AJ, MacGillivray, WR & King, GC 2007, 'Super-elastic electron scattering within a magnetic angle changer: determination of the angular momentum transferred during electron excitation over all scattering angles', Physical Review Letters, vol. 99, 133202.

Publisher's version available at: http://dx.doi.org/10.1103/PhysRevLett.99.133202