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Power Dissipation in Spintronic Devices Out of Thermodynamic Equilibrium
Authors:Dmitri E. Nikonov  George I. Bourianoff  Paolo A. Gargini
Affiliation:(1) Technology Strategy, Technology and Manufacturing Group, Intel Corp., 2200 Mission College Blvd., Santa Clara, California 95052, USA
Abstract:Quantum limits of power dissipation in spintronic computing are estimated. A computing element composed of a single electron in a quantum dot is considered. Dynamics of its spin due to external magnetic field and interaction with adjacent dots are described via the Bloch equations. Spin relaxation due to magnetic noise from various sources is described as coupling to a reservoir. Resulting dissipation of energy is calculated and is shown to be much less than the thermal limit, ∼kT per bit, if the rate of spin relaxation is much slower than the switching rate. Clues on how to engineer an energy efficient spintronic device are provided.
Keywords:computation theory  heat dissipation  quantum theory  relaxation processes  magnetic noise  spintronics
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