Electric Field Dependence
of Diamagnetic Muon Asymmetry in
Gallium Arsenide
At a temperature of 50K, in a transverse magnetic field of 100G, the diamagnetic
muon asymmetry is a strong function of applied electric field. This
is because the muon attracts free electrons liberated in its ionization
track and captures them after it stops, to form the paramagnetic muonium
(Mu) atom. An applied electric field can compete with the muon's
Coulomb attraction for the electron as long as the muon-electron distance
is not too short; thus the characteristic field required to quench delayed
Mu formation is a measure of the mean muon-electron distance, which in
this case is estimated to be 50-100 nm. The asymmetry in the
E-field dependence (a positive E is in the direction of the
muon's original momentum) indicates that the electrons are left predominantly
behind the muon.
Author: JHB. Figure
created 1997. See TRIUMF Expt
775.
Prepared by Jess H. Brewer
Last modified:
Thu Aug 13 13:32:27 PDT 1998