Title :
Switching Properties in Spin Transper Torque MRAM with sub-5Onm MTJ size
Author :
Nam, K.T. ; Oh, S.C. ; Lee, J.E. ; Jeong, J.H. ; Baek, I.G. ; Yim, E.K. ; Zhao, J.S. ; Park, S.O. ; Kim, H.S. ; Chung, U-in ; Moon, J.T.
Author_Institution :
Process Dev. Team, Samsung Electron. Co., Ltd., Yongin
Abstract :
Magnetic random access memory using spin-transfer torque effect has been developed with 30 nm sized magnetic tunnel junction (MTJ) cells. In this paper, we will describe the switching properties of sub-50 nm sized MTJ patterned by conventional lithography and etching process. Low switching current density (Jc) of 1.63times106 A/cm2 with 10 ns pulse was achieved by optimizing magnetic materials and MTJ structure including MgO tunnel barrier. One sigma (sigma) value of switching voltage distribution within 9 chips was about 6.2% of average value, which was much narrower than that of conventional field induced switching scheme. Also, as cell width decreased from 65 nm to 30 nm, switching current decreased from 133 muA to 25 muA. This indicates that STT-MRAM has an excellent scalability as well as the feasibility of low power and high density.
Keywords :
etching; lithography; magnetic storage; magnetic switching; magnetic tunnelling; random-access storage; current 133 muA; current 25 muA; etching process; lithography; magnetic random access memory; magnetic tunnel junction; size 30 nm; spin transfer torque; time 10 ns; Current density; Etching; Lithography; Magnetic materials; Magnetic switching; Magnetic tunneling; Random access memory; Scalability; Torque; Voltage; MRAM; MgO tunnel barrer; magnetic tunnel juction; spin transfer torque;
Conference_Titel :
Non-Volatile Memory Technology Symposium, 2006. NVMTS 2006. 7th Annual
Conference_Location :
San Mateo, CA
Print_ISBN :
0-7803-9738-X
DOI :
10.1109/NVMT.2006.378875
