Title :
Avalanche multiplication noise characteristics in thin GaAs p+ -i-n+ diodes
Author :
Li, K.F. ; Ong, D.S. ; David, John P R ; Rees, G.J. ; Tozer, Richard C. ; Robson, Peter N. ; Grey, R.
Author_Institution :
Dept. of Electron. & Electr. Eng., Sheffield Univ., UK
fDate :
10/1/1998 12:00:00 AM
Abstract :
Avalanche noise measurements have been performed on a range of homojunction GaAs p+-i-n+ and n+-i-p + diodes with “i” region widths, ω from 2.61 to 0.05 μm. The results show that for ω⩽1 μm the dependence of excess noise factor F on multiplication does not follow the well-established continuous noise theory of McIntyre [1966]. Instead, a decreasing noise factor is observed as ω decreases for a constant multiplication. This reduction in F occurs for both electron and hole initiated multiplication in the thinner ω structures even though the ionization coefficient ratio is close to unity. The dead-space, the minimum distance a carrier must travel to gain the ionization threshold energy, becomes increasingly important in these thinner structures and largely accounts for the reduction in noise
Keywords :
avalanche breakdown; avalanche photodiodes; impact ionisation; p-i-n photodiodes; semiconductor device models; semiconductor device noise; 0.05 to 2.61 micron; GaAs; avalanche multiplication noise characteristics; dead-space; decreasing noise factor; electron initiated multiplication; excess noise factor; hole initiated multiplication; ionization coefficient ratio; ionization threshold energy; noise measurements; p+-i-n+ diodes; Charge carrier processes; Diodes; Epitaxial growth; Gallium arsenide; Impact ionization; Molecular beam epitaxial growth; Noise generators; Noise measurement; Optical noise; Signal to noise ratio;
Journal_Title :
Electron Devices, IEEE Transactions on
