We report results of an investigation into the magnetic properties of
the electron spins in a sample of germanium heavily doped with arsenic
; the doping process is effected by the neutron transmutation techniqu
e, on germanium isotopically enriched to 95% Ge-74. The process leaves
the sample with 9% compensation, and with a true random distribution
of donor spins. Temperatures down to 40 mK and uniaxial stresses up to
0.36 GPa are utilized, and the integrated electron spin resonance is
used to monitor the magnetic properties. Electrical characterization o
f the sample at ambient stress shows hopping behaviour, placing the de
nsity of the sample below the critical density for the metal-non-metal
transition at this pressure. Electron spin resonance (esr) in the dil
ution refrigerator is only observed with stress applied; this minimal
stress drives the sample metallic. A large 'stress-tuning' effect is i
nferred. The data on the electron spin susceptibility in the just-meta
llic sample, as monitored by the integrated area of the esr line at th
e lowest stress, shows at most only a small variation with temperature
; a small broadening as T is lowered appears to be matched by a simila
r decrease of intensity. Further, [110] uniaxial stress enhances the i
ntensity of the esr line. The sharp contrast with Si:P is discussed. W
e speculate that the experiment is detecting only the spins in the str
ongly metallic portions of the sample.