Title :
Influence of freelayer in magnetic tunnel junction on switching of submicrometer magnetoresistive random access memory arrays
Author :
Lee, Yun Ki ; Chun, Byong Sun ; Kim, Young Keun ; Hwang, Injun ; Park, Wanjun ; Kim, Taewan ; Kim, Hongseog ; Lee, Jangeun ; Jeong, Won-Cheol
Author_Institution :
Div. of Mater. Sci. & Eng., Korea Univ., Seoul, South Korea
Abstract :
As magnetic tunnel junction (MTJ) cells for magnetoresistive random access memory (MRAM) are reduced in size, the presence of a magnetization vortex seriously interferes with switching selectivity. We prepared 0.3 μm×0.8 μm, nearly rectangular shape MTJs consisted of PtMn/CoFe/Ru/CoFe/AlOx/NiFe t (t=3,4.5, and 6 nm). Both at-field and remanent state measurements at 0.4 V were conducted to distinguish kinks originating from vortex and domain wall pinning. In addition, we measured samples at various temperatures (from room temperature to 500 K), and with various hard axis fields (from 0 to 90 Oe). As temperature increased, average switching fields decreased, more rapidly for t=6 nm junctions, but kinks were not eliminated completely. When the hard axis field reached about 40-60 Oe, nearly kink-free switching was possible for t=6 nm MTJs.
Keywords :
magnetic multilayers; magnetic storage; random-access storage; tunnelling magnetoresistance; 0.4 V; PtMn-CoFe-Ru-CoFe-AlO-NiFe; domain wall pinning; free layer; hard axis fields; magnetic tunnel junction; magnetization vortex; magnetoresistive random access memory; random access memory arrays; remanent state; switching fields; switching selectivity; thermal effect; Magnetic field measurement; Magnetic switching; Magnetic tunneling; Magnetization; Materials science and technology; Metastasis; Random access memory; Temperature; Tunneling magnetoresistance; Writing; Hard-axis field; magnetoresistive random access memory (MRAM); remanent-state; switching field; thermal effect;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.842079
