Novel high-speed transistor using electron-wave diffraction
- 15 August 1987
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 62 (4) , 1492-1494
- https://doi.org/10.1063/1.339629
Abstract
A new class of devices consisting of a heterojunction npn transistor with a wavelength modulator and a transversal potential grating in the base region is proposed. An electron injected at high energy into the base region is modulated in wavelength due to acceleration by a signal voltage and its transmission to the collector is controlled through diffraction caused by the grating. Diffraction characteristics are analyzed to reveal the possibility of high transconductances. Furthermore, a reduced transit time, which is due to the constant flow of high-energy and collision-free electrons and an extremely small capacitance between the modulation electrodes, provides significant potential for high-speed logic applications.This publication has 7 references indexed in Scilit:
- InGaAs/InAlAs hot-electron transistorApplied Physics Letters, 1986
- Novel triode device using metal-insulator superlattice proposed for high-speed responseElectronics Letters, 1986
- Resonant tunneling transistor with quantum well base and high-energy injection: A new negative differential resistance deviceJournal of Applied Physics, 1985
- Tunneling hot electron transfer amplifiers (theta): Amplifiers operating up to the infraredSolid-State Electronics, 1981
- Ballistic transport in semiconductor at low temperatures for low-power high-speed logicIEEE Transactions on Electron Devices, 1979
- Resonant tunneling in semiconductor double barriersApplied Physics Letters, 1974
- Operation of Tunnel-Emission DevicesJournal of Applied Physics, 1961