Patent ID: 7466579

Claim:
A field effect device, comprising: a source electrode; a drain electrode spaced laterally apart from the source electrode; a channel formed between the source electrode and the drain electrode; and a gate electrode separated from the channel by an insulating layer, wherein the channel comprises a switching material reversibly switchable between a first conductivity state and a second conductivity state by at least one of: (i) application of a predetermined voltage between the source electrode and the drain electrode or between the gate electrode and at least one of the source electrode and the drain electrode, (ii) application of a voltage or a current to the switching material in the channel, and (iii) application of at least one of heat and light, the first conductivity state having an electrical conductivity which is lower than an electrical conductivity of the second conductivity state, each of the conductivity states being persistent without a need for a sustaining excitation signal including at least one of an electrical field, heat and light applied to the device; wherein: (i) when in a given one of the persistent conductivity states, application of a voltage having a magnitude which is greater than a prescribed voltage level to the gate electrode relative to at least one of the source electrode and drain electrode causes the switching material to switch between the first conductivity state and the second conductivity state or between the second conductivity state and the first conductivity state as a function of a polarity of the voltage applied to the gate electrode; and (ii) application of a voltage having a magnitude which is less than or equal to the prescribed voltage level to the gate electrode relative to at least one of the source electrode and drain electrode causes a non-persistent change in the conductivity of the switching material, an amount of non-persistent change in the conductivity being a function of at least one of the magnitude and the polarity of the voltage applied to the gate electrode, whereby varying the voltage applied to the gate electrode causes a modulation of the electrical conductivity of the given conductivity state when the magnitude of the voltage is less than or equal to the prescribed voltage level and causes a switching of the conductivity state when the magnitude of the voltage is greater than the prescribed voltage level.