One-phonon ionization of donors in germanium via intervalley scattering by slow TA phonons at the X point of the Brillouin zone is demonstrated by the stress dependence of phonon-induced conductivity. Superconducting aluminum junctions are used as tunable quasimonochromatic phonon sources up to these extreme frequencies. The ionization probability is found to be increased when donor levels associated with stress-shifted higher valleys of the conduction band cross the lowest valley(s). PACS numbers: 63.20.Kr, 63.20.Mt, 71.55.-iThe fast trapping of free carriers into shallow states at low temperatures in lightly doped semiconductors is an old 1,2 but as yet open problem. The capture into the impurity ground state (GS) by one-phonon emission is possible in principle for binding energies below the Debye limit, although the probability is in general small because of the difficulty to conserve momentum. So, other processes have been invoked to explain the short carrier lifetimes: the cascading down of the carrier through excited states by low-frequency phonon emission, 2 " 4 a onestep decay by two-phonon emission, 5
and trapping by neutral donors or acceptors in D ~,A + intermediate states. 6 ' 7The process inverse to relaxation, the excitation of carriers from bound states by nonthermal phonons, has become accessible by phonon-induced electrical conductivity (PIC), a new spectroscopic tool, 8 using superconducting Al junctions as tunable phonon sources. At bias U the phonon spectrum emitted by the junction has a sharp limit at e[/~2AAi (2 AAI = superconductor gap) which by modulation (differentiation) techniques becomes effectively a quasimonochromatic line. Here we show that, in the special case of donors in Ge, one-phonon excitation is possible by the large wave-vector transfer via intervalley scattering of the carriers in the excitation process.The experimental technique has been described earlier. 9,10 A thin Al junction is evaporated onto one of the 15x5-mm 2 faces of the 2-mm-thick samples doped with = (2-5)x 10 14 cm ~3 of Sb, P, or As. The face opposite to the junction is irradiated with visible light to create free carriers and thus a finite sample conductivity.The PIC signals obtained vary with stress. This can be understood in terms of the theoretical stress dependence of the shallow donor states and the corresponding transition probabilities.
The eigenvalues and eigenfunctions are given by several authors. 11 " 14 The unstressed GS consists of a singlet [\s(A { ), n =0] and a triplet [\s(T\),/i -1,2,3] separated by the valley-orbit splitting 4A (Fig. 1). With increasing stress the ionization energy initially falls and then remains constant. The eigenfunctions V n are represented as a superposition of Bloch functions ^' } (r) of the four conduction-band (CB) minima at k (/) : **(r) = £ ¥" G) -X a ( n i) Table I).
(p)Fi i) (rM i) (r).
Here /=l-4 corresponds to [111], [TlT], [lTT], and [III], respectively, F" (T) are envelope functions and aJt'Hp) are stress-dependent coefficients (see
Phonon-induced transit...
