Title :
MRAM concepts for sub-nanosecond precessional switching and sub-20nm cell scaling
Author :
Sousa, Ricardo C. ; Bandiera, S. ; Marins de Castro, M. ; Lacoste, B. ; San-Emeterio-Alvarez, L. ; Nistor, Lavinia ; Auffret, Stephane ; Ebels, U. ; Ducruet, C. ; Prejbeanu, Ioan L. ; Vila, Laurent ; Rodmacq, Bernard ; Dieny, Bernard
Author_Institution :
SPINTEC, UJF, Grenoble, France
Abstract :
This work reports on advances in MRAM cells aiming at sub-nanosecond switching and for sub-20nm technology nodes. Ultrafast precessional spin-transfer switching in elliptical magnetic tunnel junction nanopillars is possible to obtain in samples integrating a perpendicular polarizer and a tunnel junction with in-plane magnetized electrodes. We show that spin transfer torque (STT) switching in less than 500ps can be achieved in these structures with corresponding write energy less than 100fJ. For high density integration and possibly sub-20nm diameter cells the use of a thermally assisted concept for perpendicular anisotropy cells, where the intrinsic heating is used to simultaneously achieve high thermal stability and low current switching.
Keywords :
MRAM devices; magnetic switching; magnetic tunnelling; perpendicular magnetic anisotropy; MRAM cells; STT switching; elliptical magnetic tunnel junction nanopillars; in-plane magnetized electrodes; intrinsic heating; perpendicular anisotropy cells; perpendicular polarizer; spin transfer torque switching; sub-20nm cell scaling; subnanosecond switching; thermal stability; ultrafast precessional spin-transfer switching; CMOS integrated circuits; Current measurement; Magnetic resonance imaging; Random access memory; Rotation measurement; Switches; Thermal stability; MRAM; perpendicular anisotropy; perpendicular polarizer; precessional switching; spin transfer torque;
Conference_Titel :
Semiconductor Conference Dresden-Grenoble (ISCDG), 2013 International
Conference_Location :
Dresden
Print_ISBN :
978-1-4799-1250-6
DOI :
10.1109/ISCDG.2013.6656316
