for the deuteron: Measurements of the tensor
polarization in elastic electron scattering from the deuteron
have, for the first time, allowed the separation of the charge monopole,
charge quadrupole and magnetic dipole form factors.
Interference structure function of deuterium: The longitudinal-
transverse interference structure function has been determined for
momentum transfers up to 1.2 (GeV/c). These data indicate a clear
preference for a relativistic treatment of this observable, and in
particular, of the electron-nucleon vertex.
Deuteron photodisintegration: Two-body photodisintegration of
the deuteron has been measured for up to 2.8 GeV. For high
momentum transfers to the nucleon the onset of dimensional scaling is
observed.
The structure of He: Calculations performed to explain the
measured energy transfer dependence of the asymmetry in
scattering of polarized electrons from polarized He revealed the
importance of the small D- and S-states which generated some 75%of the observed asymmetry .
The Coulomb sum rule: The Coulomb sum rule has now been tested
for momentum transfers up to 1 GeV/c in both the A=3,4 systems (where it
is satisfied) and in Fe where it appears not to be. However some
recent analyses have yielded results in which the CSR is essentially
saturated in medium weight nuclei.
Single-particle states at high momentum: The first (e,ep)
measurements of high-momentum (500-700 MeV/c) components in single-
particle wavefunctions have been made with high duty factor electron beams.