1984
DOI: 10.1109/t-ed.1984.21469
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Effects of transient carrier transport in millimeter-wave GaAs diodes

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Cited by 19 publications
(3 citation statements)
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“…Such "carrier inertia" phenomena are bound to require study for all future THz devices (see for example (Kollberg et al, 1991)), while the theory for lower frequency devices has been able to ignore these effects. The equivalent circuit of the 2DEG device is predicted to contain an additional inductance in series with the resistance, as shown in Figure 15 (Grondin et al, 1984). In measurements with a microprobe, and utilizing one of the balun circuits described in the previous section, graduate student Wes Grammer was able to confirm the presence of this inductance in the equivalent circuit of the 2DEG device (Grammer, 1992).…”
Section: Equivalent Circuit Of the 2deg Devicementioning
confidence: 96%
“…Such "carrier inertia" phenomena are bound to require study for all future THz devices (see for example (Kollberg et al, 1991)), while the theory for lower frequency devices has been able to ignore these effects. The equivalent circuit of the 2DEG device is predicted to contain an additional inductance in series with the resistance, as shown in Figure 15 (Grondin et al, 1984). In measurements with a microprobe, and utilizing one of the balun circuits described in the previous section, graduate student Wes Grammer was able to confirm the presence of this inductance in the equivalent circuit of the 2DEG device (Grammer, 1992).…”
Section: Equivalent Circuit Of the 2deg Devicementioning
confidence: 96%
“…In the transition between the neutral (low-field region) and the depleted (high-field region) regions of the epilayer, the electrons move in the high-field region with a mobility higher than expected from the static velocity-field curves due to the delayed response of the electron velocity to the local electric field (energy and momentum relaxation effects 2 ) [24], [72], [73]. As a consequence, the DD model overestimates the series resistance of the diode, because it uses the mobility from the static velocity-field curves.…”
Section: Appendix Nonlocal Effects In the Transition Between The Undepleted Epilayer And The Space-charge Regionmentioning
confidence: 99%
“…If we assume a saturated electron velocity of 3 x lo7 c d s [5], [9] and the tripler pump frequency of 268 GHz, then (1) yields a epitaxial layer thickness of 0.18 pm. Thus, the older 2T2 design clearly has more epitaxial material than can be depleted of electrons and refilled within a pump cycle.…”
Section: (4)mentioning
confidence: 99%