Results 351 to 360 of about 679,929 (398)
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Kondo effect in a single-electron transistor
Nature, 1997How localized electrons interact with delocalized electrons is a central question to many problems in sold-state physics. The simplest manifestation of this situation is the Kondo effect, which occurs when an impurity atom with an unpaired electron is ...
D. Goldhaber-Gordon +6 more
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Transistor Electronics: Imperfections, Unipolar And Analog Transistors
Proceedings of the IEEE, 1952The electronic mechanisms that are of chief interest in transistor electronics are discussed from the point of view of solid-state physics. The important concepts of holes, electrons, donors, acceptors, and deathnium (recomibination center for holes and electrons) are treated from a unified viewpoint as imperfections in a nearly perfect crystal.
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Field-effect transistor versus analog transistor (static induction transistor)
IEEE Transactions on Electron Devices, 1975The reason why the usual FET shows the saturated characteristics has been shown that with increasing drain voltage, the effect of the negative feedback action, increases through a marked increase of the Series channel resistance in the neighborhood of the pinch-off voltage, under which condition the apparent transfercon-ductance G_{m'}= G_{m}/(1 + r_{s}
J. Shibata +2 more
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"One Transistor, Two Transistors, Three"
IEEE Solid-State Circuits Magazine, 2013There are 24 hours in a day; and, then there?s the night!? This, I had just learned, was always going to be the answer to the question, ?How can we possibly finish this project by then??
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Observation of electron–hole puddles in graphene using a scanning single-electron transistor
, 2007The electronic structure of graphene causes its charge carriers to behave like relativistic particles. For a perfect graphene sheet free from impurities and disorder, the Fermi energy lies at the so-called ‘Dirac point’, where the density of electronic ...
Jens Martin +7 more
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1970 International Electron Devices Meeting, 1970
A new kind of three-terminal amplifying device that works on the principle of nonlinear acoustic wave amplification is described. The device has an advantage of simple transistor-like operation while maintaining the long delay times of an acoustic wave amplifier.
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A new kind of three-terminal amplifying device that works on the principle of nonlinear acoustic wave amplification is described. The device has an advantage of simple transistor-like operation while maintaining the long delay times of an acoustic wave amplifier.
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Room-temperature transistor based on a single carbon nanotube
Nature, 1998S. Tans, A. Verschueren, C. Dekker
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Skin electronics from scalable fabrication of an intrinsically stretchable transistor array
Nature, 2018Sihong Wang +19 more
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Nature Nanotechnology, 2010
Graphene has changed from being the exclusive domain of condensed-matter physicists to being explored by those in the electron-device community. In particular, graphene-based transistors have developed rapidly and are now considered an option for post-silicon electronics.
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Graphene has changed from being the exclusive domain of condensed-matter physicists to being explored by those in the electron-device community. In particular, graphene-based transistors have developed rapidly and are now considered an option for post-silicon electronics.
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