Rohrer, E.E.RohrerNebel, C.E.C.E.NebelStutzmann, M.M.StutzmannFloter, A.A.FloterZachai, R.R.ZachaiJiang, X.X.JiangKlages, C.-P.C.-P.Klages2022-03-032022-03-031998https://publica.fraunhofer.de/handle/publica/19314510.1016/S0925-9635(97)00318-XNitrogen-doped (CVD- and synthetic type IIa and Ib diamonds were investigated by the constant photocurrent method (CPM). Nominally undoped CVD-films containing nitrogen show broad absorption bands with threshold energies at 1, 2, 3, 3 and 4.2 eV. The typical nitrogen donor absorption band with a threshold at 1.7 eV is partially masked by the eV band in CVD-films. The absorption bands are too broad to be described by simle theories based on photoionization of single unbroadened impurity levels. Boron-doped CVD- and type IIb synthetic diamond was studied by photoconductivity and photothermal ionization in the near infra-red. The large electron-phonon coupling in diamond gives rise to oscillatory photoconductivity minima due to fast capture of holes by the excited states of boron accepters. In CVD-films with boron concentrations around 10(19) cm(-3), the oscillation pattern inverts at low temperatures and sharp minima were found in the spectrum.enphotoconductivityCVD- and synthetic diamondboronnitrogen667553journal article