Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy

Hui Zhao; Brian Glass; Pedram Khalili Amiri; Andrew Lyle; Yisong Zhang; Yu Jin Chen; Graham Rowlands; Pramey Upadhyaya; Zhongming Zeng; J. A. Katine; Juergen Langer; Kosmas Galatsis; Hongwen Jiang; Kang L. Wang; Ilya N. Krivorotov; Jian Ping Wang

doi:10.1088/0022-3727/45/2/025001

Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy

Hui Zhao, Brian Glass, Pedram Khalili Amiri, Andrew Lyle, Yisong Zhang, Yu Jin Chen, Graham Rowlands, Pramey Upadhyaya, Zhongming Zeng, J. A. Katine, Juergen Langer, Kosmas Galatsis, Hongwen Jiang, Kang L. Wang, Ilya N. Krivorotov, Jian Ping Wang

Electrical and Computer Engineering

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Abstract

Ultrafast spin transfer torque (STT) switching in an in-plane MgO magnetic tunnel junction with 50nm×150nm elliptical shape was demonstrated in this paper. Switching speeds as short as 165ps and 190ps at 50% and 98% switching probabilities, respectively, were observed without external field assistance in a thermally stable junction with a 101% tunnelling magnetoresistance ratio. The minimum writing energy of P-AP switching for 50% and 98% switching probability are 0.16pJ and 0.21pJ, respectively. The observed ultrafast switching is believed to occur because of partially cancelled out-of-plane demagnetizing field in the free layer from interface perpendicular anisotropy between the MgO layer and the Co ₂₀Fe ₆₀B ₂₀ layer. High J/J _c0 ratio and magnetization nucleation at the edge of free layer, which result from the reduced perpendicular demagnetizing field, are possibly two major factors that contribute to the ultrafast STT switching.

Original language	English (US)
Article number	025001
Journal	Journal of Physics D: Applied Physics
Volume	45
Issue number	2
DOIs	https://doi.org/10.1088/0022-3727/45/2/025001
State	Published - Jan 18 2012

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Zhao, H., Glass, B., Amiri, P. K., Lyle, A., Zhang, Y., Chen, Y. J., Rowlands, G., Upadhyaya, P., Zeng, Z., Katine, J. A., Langer, J., Galatsis, K., Jiang, H., Wang, K. L., Krivorotov, I. N., & Wang, J. P. (2012). Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy. Journal of Physics D: Applied Physics, 45(2), Article 025001. https://doi.org/10.1088/0022-3727/45/2/025001

Zhao, H, Glass, B, Amiri, PK, Lyle, A, Zhang, Y, Chen, YJ, Rowlands, G, Upadhyaya, P, Zeng, Z, Katine, JA, Langer, J, Galatsis, K, Jiang, H, Wang, KL, Krivorotov, IN & Wang, JP 2012, 'Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy', Journal of Physics D: Applied Physics, vol. 45, no. 2, 025001. https://doi.org/10.1088/0022-3727/45/2/025001

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title = "Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy",

abstract = "Ultrafast spin transfer torque (STT) switching in an in-plane MgO magnetic tunnel junction with 50nm×150nm elliptical shape was demonstrated in this paper. Switching speeds as short as 165ps and 190ps at 50% and 98% switching probabilities, respectively, were observed without external field assistance in a thermally stable junction with a 101% tunnelling magnetoresistance ratio. The minimum writing energy of P-AP switching for 50% and 98% switching probability are 0.16pJ and 0.21pJ, respectively. The observed ultrafast switching is believed to occur because of partially cancelled out-of-plane demagnetizing field in the free layer from interface perpendicular anisotropy between the MgO layer and the Co 20Fe 60B 20 layer. High J/J c0 ratio and magnetization nucleation at the edge of free layer, which result from the reduced perpendicular demagnetizing field, are possibly two major factors that contribute to the ultrafast STT switching.",

author = "Hui Zhao and Brian Glass and Amiri, {Pedram Khalili} and Andrew Lyle and Yisong Zhang and Chen, {Yu Jin} and Graham Rowlands and Pramey Upadhyaya and Zhongming Zeng and Katine, {J. A.} and Juergen Langer and Kosmas Galatsis and Hongwen Jiang and Wang, {Kang L.} and Krivorotov, {Ilya N.} and Wang, {Jian Ping}",

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doi = "10.1088/0022-3727/45/2/025001",

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T1 - Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy

AU - Zhao, Hui

AU - Glass, Brian

AU - Amiri, Pedram Khalili

AU - Lyle, Andrew

AU - Zhang, Yisong

AU - Chen, Yu Jin

AU - Rowlands, Graham

AU - Upadhyaya, Pramey

AU - Zeng, Zhongming

AU - Katine, J. A.

AU - Langer, Juergen

AU - Galatsis, Kosmas

AU - Jiang, Hongwen

AU - Wang, Kang L.

AU - Krivorotov, Ilya N.

AU - Wang, Jian Ping

PY - 2012/1/18

Y1 - 2012/1/18

N2 - Ultrafast spin transfer torque (STT) switching in an in-plane MgO magnetic tunnel junction with 50nm×150nm elliptical shape was demonstrated in this paper. Switching speeds as short as 165ps and 190ps at 50% and 98% switching probabilities, respectively, were observed without external field assistance in a thermally stable junction with a 101% tunnelling magnetoresistance ratio. The minimum writing energy of P-AP switching for 50% and 98% switching probability are 0.16pJ and 0.21pJ, respectively. The observed ultrafast switching is believed to occur because of partially cancelled out-of-plane demagnetizing field in the free layer from interface perpendicular anisotropy between the MgO layer and the Co 20Fe 60B 20 layer. High J/J c0 ratio and magnetization nucleation at the edge of free layer, which result from the reduced perpendicular demagnetizing field, are possibly two major factors that contribute to the ultrafast STT switching.

AB - Ultrafast spin transfer torque (STT) switching in an in-plane MgO magnetic tunnel junction with 50nm×150nm elliptical shape was demonstrated in this paper. Switching speeds as short as 165ps and 190ps at 50% and 98% switching probabilities, respectively, were observed without external field assistance in a thermally stable junction with a 101% tunnelling magnetoresistance ratio. The minimum writing energy of P-AP switching for 50% and 98% switching probability are 0.16pJ and 0.21pJ, respectively. The observed ultrafast switching is believed to occur because of partially cancelled out-of-plane demagnetizing field in the free layer from interface perpendicular anisotropy between the MgO layer and the Co 20Fe 60B 20 layer. High J/J c0 ratio and magnetization nucleation at the edge of free layer, which result from the reduced perpendicular demagnetizing field, are possibly two major factors that contribute to the ultrafast STT switching.

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Sub-200ps spin transfer torque switching in in-plane magnetic tunnel junctions with interface perpendicular anisotropy

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