Sensitivity of spin-torque diodes for frequency-tunable resonant microwave detection

We calculate the efficiency with which magnetic tunnel junctions can be used as resonant detectors of incident microwave radiation via the spin-torque diode effect. The expression we derive is in good agreement with the sensitivities we measure for MgO-based magnetic tunnel junctions with an extended (unpatterned) magnetic pinned layer. However, the measured sensitivities are reduced below our estimate for a second set of devices in which the pinned layer is a patterned synthetic antiferromagnet (SAF). We suggest that this reduction may be due to an undesirable coupling between the magnetic free layer and one of the magnetic layers within the etched SAF. Our calculations suggest that optimized tunnel junctions should achieve sensitivities for resonant detection exceeding 10 000 mV/mW.

[1]  D. Ralph,et al.  Measurement of the spin-transfer-torque vector in magnetic tunnel junctions , 2007, 0705.4207.

[2]  J. Katine,et al.  Device implications of spin-transfer torques , 2008 .

[3]  V. Tiberkevich,et al.  Nonlinear Auto-Oscillator Theory of Microwave Generation by Spin-Polarized Current , 2009, IEEE Transactions on Magnetics.

[4]  Jordan A. Katine,et al.  Spin transfer induced coherent microwave emission with large power from nanoscale MgO tunnel junctions , 2008 .

[5]  A. V. Nazarov,et al.  Spin Transfer Stimulated Microwave Emission in MgO Magnetic Tunnel Junctions , 2006, INTERMAG 2006 - IEEE International Magnetics Conference.

[6]  I. N. Krivorotov,et al.  Spin-transfer effects in nanoscale magnetic tunnel junctions , 2004, cond-mat/0404002.

[7]  Nicholas Kioussis,et al.  Anomalous bias dependence of spin torque in magnetic tunnel junctions. , 2006, Physical review letters.

[8]  S. Adam,et al.  Theory of the spin-torque-driven ferromagnetic resonance in a ferromagnet/normal-metal/ferromagnet structure , 2006, cond-mat/0607145.

[9]  D. Ralph,et al.  Adjustable spin torque in magnetic tunnel junctions with two fixed layers , 2005, cond-mat/0503376.

[10]  J. Sun,et al.  Spin-torque driven ferromagnetic resonance of Co∕Ni synthetic layers in spin valves , 2007, 0711.0405.

[11]  D. Ralph,et al.  Spin-transfer-driven ferromagnetic resonance of individual nanomagnets. , 2006, Physical review letters.

[12]  Jonathan Z. Sun,et al.  Theory of voltage-driven current and torque in magnetic tunnel junctions , 2007 .

[13]  Z. Diao,et al.  Spin transfer switching current reduction in magnetic tunnel junction based dual spin filter structures , 2005 .

[14]  D. C. Ralph,et al.  Magnetoresistance and spin-transfer torque in magnetic tunnel junctions , 2008 .

[15]  J. Slonczewski Current-driven excitation of magnetic multilayers , 1996 .

[16]  S. Yuasa,et al.  Quantitative measurement of voltage dependence of spin-transfer torque in MgO-based magnetic tunnel junctions , 2008 .

[17]  D. Pozar Microwave Engineering , 1990 .

[18]  Slonczewski Jc,et al.  Conductance and exchange coupling of two ferromagnets separated by a tunneling barrier. , 1989 .

[19]  Hitoshi Kubota,et al.  Bias-driven high-power microwave emission from MgO-based tunnel magnetoresistance devices , 2008, 0803.2013.

[20]  Current-driven ferromagnetic resonance, mechanical torques, and rotary motion in magnetic nanostructures , 2006, cond-mat/0609258.

[21]  S. Yuasa,et al.  Spin-torque diode effect in magnetic tunnel junctions , 2005, Nature.

[22]  D. Ralph,et al.  Microwave oscillations of a nanomagnet driven by a spin-polarized current , 2003, Nature.

[23]  L. Berger,et al.  Multilayer configuration for experiments of spin precession induced by a dc current , 2003 .

[24]  S. Ikeda,et al.  2 Mb SPRAM (SPin-Transfer Torque RAM) With Bit-by-Bit Bi-Directional Current Write and Parallelizing-Direction Current Read , 2008, IEEE Journal of Solid-State Circuits.

[25]  R. Rosenfeld Nature , 2009, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[26]  Berger Emission of spin waves by a magnetic multilayer traversed by a current. , 1996, Physical review. B, Condensed matter.

[27]  Ralph,et al.  Current-driven magnetization reversal and spin-wave excitations in Co /Cu /Co pillars , 1999, Physical review letters.

[28]  D. Ralph,et al.  Reduction of the spin-torque critical current by partially canceling the free layer demagnetization field , 2009 .

[29]  D. Ralph,et al.  Spin transfer torques , 2007, 0711.4608.