Add to ORKGA generalized history-dependent recurrence theory for the time-response analysis is derived for avalanche photodiodes with multilayer, heterojunction multiplication regions. The heterojunction multiplication region considered consists of two layers: a high-bandgap Al/sub 0.6/Ga/sub 0.4/As energy-buildup layer, which serves to heat up the primary electrons, and a GaAs layer, which serves as the primary avalanching layer. The model is used to optimize the gain-bandwidth product (GBP) by appropriate selection of the width of the energy-buildup layer for a given width of the avalanching layer. The enhanced GBP is a direct consequence of the heating of primary electrons in the energy-buildup layer, which results in a reduced first dead space for...
To predict pulse detection performance when implemented in high speed photoreceivers, temporally res...
It is, by now, well known that McIntyre\u27s localized carrier-multiplication theory cannot explain ...
Avalanche photodiodes based on GaAs/AlGaAs with separated absorption and multiplication regions (SAM...
The frequency-response characteristics of avalanche photodiodes (APDs) with thin multiplication laye...
The recurrence theory for the breakdown probability in avalanche photodiodes (APDs) is generalized t...
The history-dependent recurrence theory for multiplication noise in avalanche photodiodes (APDs), de...
Novel theory is developed for the avalanche multiplication process in avalanche photodiodes (APDs) u...
It has been recently found that the initial-energy effect, which is associated with the finite initi...
This paper reports a novel recurrence theory that enables us to calculate the exact joint probabilit...
This paper reports a novel recurrence theory that enables us to calculate the exact joint probabilit...
A new approach for characterizing the avalanche-buildup-time-limited bandwidth of avalanche photodio...
Recently, it has been shown that the noise characteristics of heterojunction Al/sub 0.6/Ga/sub 0.4/A...
A novel theory was recently reported for the avalanche multiplication process in avalanche photodiod...
Abstract—This paper reports a novel recurrence theory that enables us to calculate the exact joint p...
We present a non-local history-dependent model for impact ionization gain and noise in avalanche pho...
To predict pulse detection performance when implemented in high speed photoreceivers, temporally res...
It is, by now, well known that McIntyre\u27s localized carrier-multiplication theory cannot explain ...
Avalanche photodiodes based on GaAs/AlGaAs with separated absorption and multiplication regions (SAM...
The frequency-response characteristics of avalanche photodiodes (APDs) with thin multiplication laye...
The recurrence theory for the breakdown probability in avalanche photodiodes (APDs) is generalized t...
The history-dependent recurrence theory for multiplication noise in avalanche photodiodes (APDs), de...
Novel theory is developed for the avalanche multiplication process in avalanche photodiodes (APDs) u...
It has been recently found that the initial-energy effect, which is associated with the finite initi...
This paper reports a novel recurrence theory that enables us to calculate the exact joint probabilit...
This paper reports a novel recurrence theory that enables us to calculate the exact joint probabilit...
A new approach for characterizing the avalanche-buildup-time-limited bandwidth of avalanche photodio...
Recently, it has been shown that the noise characteristics of heterojunction Al/sub 0.6/Ga/sub 0.4/A...
A novel theory was recently reported for the avalanche multiplication process in avalanche photodiod...
Abstract—This paper reports a novel recurrence theory that enables us to calculate the exact joint p...
We present a non-local history-dependent model for impact ionization gain and noise in avalanche pho...
To predict pulse detection performance when implemented in high speed photoreceivers, temporally res...
It is, by now, well known that McIntyre\u27s localized carrier-multiplication theory cannot explain ...
Avalanche photodiodes based on GaAs/AlGaAs with separated absorption and multiplication regions (SAM...