J. Ristein et al., PHOTOELECTRON YIELD SPECTROSCOPY ON NEGATIVE ELECTRON-AFFINITY DIAMOND SURFACES - A CONTACTLESS UNIPOLAR TRANSPORT EXPERIMENT, DIAMOND AND RELATED MATERIALS, 7(2-5), 1998, pp. 626-631
On the hydrogen-passivated negative electron affinity (100) and (111)
surfaces of diamond no energy barrier prevents photoelectrons from exi
ting into the vacuum. Therefore, the photoelectron yield spectrum refl
ects volume rather than surface properties of the material, and the te
chnique is in many aspects similar to photoconductivity experiments, a
lbeit with the advantage of being selective to electrons exclusively (
and not to holes). We have employed photoelectron yield spectroscopy t
o investigate deep defect states in natural and CVD diamond and to det
ermine the electron diffusion length in type II b single crystals. For
the latter aspect, the competition between electron and exciton trans
port plays an important role and the analysis of the yield spectra giv
es surprisingly large electron diffusion lengths of about 200 mu m. (C
) 1998 Elsevier Science S.A.