Title :
A Feedback Spin-Valve Memristive System
Author :
Cai, Weiran ; Schmidt, Torsten ; Jörges, Udo ; Ellinger, Frank
Author_Institution :
Fac. of Electr. & Inf. Eng., Tech. Univ. Dresden, Dresden, Germany
Abstract :
We propose theoretically a generalized memristive system based on controlled spin polarizations in giant magnetoresistive material using a feedback loop with classical Hall Effect. The dynamics can exhibit a memristive pinched hysteretic loop while it possesses a self-crossing knot not located at the origin. Additionally, a single-looped orbit can also be observed in the system. We provide a sufficient condition for the stability based on an estimation of the Floquet exponent. The analysis shows that the non-origin-crossing dynamics is generally permitted in a class of passive memory systems that are not subject to Ohm´s Law. We further develope the prevailing homogeneous definition to a broadened concept of generalized heterogeneous memristive systems, permitting the self-crossing knot not located at the origin, and ultimately to the concept of compound memory electronic systems.
Keywords :
Hall effect; feedback; memristors; spin valves; Floquet exponent; Ohm law; classical Hall effect; compound memory electronic systems; controlled spin polarizations; feedback loop; feedback spin-valve memristive system; generalized heterogeneous memristive systems; generalized memristive system; giant magnetoresistive material; memristive pinched hysteretic loop; nonorigin-crossing dynamics; passive memory systems; self-crossing knot; single-looped orbit; stability; sufficient condition; Coils; Conductors; Magnetic circuits; Materials; Orbits; Resistance; Stability analysis; Hall effect; memristive system; nonlinear dynamics; spintronics;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2012.2189043
