Journal
JOURNAL OF SUPERCONDUCTIVITY
Volume 18, Issue 3, Pages 357-365Publisher
SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s10948-005-0010-5
Keywords
spin; spin-FET; magnetoelectric; memory; logic
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We propose a ballistic magneto-electric device that permits conductance modulation with both electric and magnetic fields applied perpendicular to its current conduction channel. Fields are applied through the ferromagnetic gates deposited on top of a HEMT heterostructure that contains a 2DEG for current conduction. The minimal-coupling Hamiltonian with spatially uniform electrical potentials, and delta Zeeman splitting is solved in the weak-coupling limit for which the Rashba spin orbit coupling is not considered. Ballistic transmission of electrons through a periodic system of zero-gauge double-pair magnetoelectric barriers is studied. Manipulation of barriers' geometrical symmetry and configuration leads to the conception of a spin-FET for non-volatile storage and digital logic operations. The linear modulation of electron spin polarization (vertical bar P vertical bar) is also studied for its relevance to electrical signal amplification. Perpendicular magnetization of the ferromagnetic gates permits modulation of both vertical bar P vertical bar and electron transmission (T) threshold, the latter is particularly useful for spin logic design.
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