Browsing by Subject "circuit elements"
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Item Memristor: modulating resistance via electron-ion interactions(Office of the Vice Chancellor for Research, 2010-04-09) Joglekar, Yogesh N.Memristor – a resistor with memory – is a long-postulated but recently discovered new circuit element that complements the three well-known circuit elements, namely a resistor, a capacitor, and an inductor. It was experimentally realized in a titanium oxide thin film doped with oxygen vacancies. The resistance of a memristor, and memristive system in general, depends on the electrical charge that has flown through it and not just on the voltage applied to it. We use a nonlinear, asymmetric drift model to describe the motion of dopant ions that, in turn, determines the effective resistance of the memristor. This interplay between ionic and electronic transport provides a natural mechanism for memory and switching behavior. We obtain the electrical properties of basic memristive circuits, and show that they exhibit non-exponential current and charge decay, negative differential conductance, and frequency-dependent hysteresis in the current-voltage characteristics. We then present a Lagrangian approach to describe the dynamics of memristive systems and its implications to quantum effects in memristors and other memory elements such as mem-capacitors and mem-inductors.