Title :
Si/SiGe resonant tunnelling devices separated by surrounding polysilicon
Author :
Konig, U. ; Kuisl, M. ; Luy, J.-F. ; Schaffler, F.
Author_Institution :
AEG Res. Center, Ulm, West Germany
Abstract :
A novel design for Si/SiGe double-barrier resonant tunnelling devices is presented. The active, monocrystalline zone is embedded in polycrystalline material. The poly region consists of the same layer sequence as the active region. Both regions are deposited simultaneously by means of so-called differential molecular beam epitaxy. The I/V curve of the novel device shows a strong and a weak resonance at about 330 and 95 mV, respectively. The poly embedment can be applied as an in situ deposited separation.
Keywords :
Ge-Si alloys; elemental semiconductors; molecular beam epitaxial growth; silicon; tunnel diodes; I/V curve; MBE; Si-SiGe; differential molecular beam epitaxy; double-barrier; embedded monocrystalline zone; polycrystalline material; quasiplanar resonant tunnel diode; resonant tunnelling devices; semiconductors;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19890784
