Title :
Gain and Fan-Out in a Current-Field Driven Spin Transistor With an Assisting AC Magnetic Field
Author :
Konishi, Katsunori ; Nozaki, Takayuki ; Kubota, Hitoshi ; Fukushima, Akio ; Yuasa, Shinji ; Suzuki, Yoshishige
Author_Institution :
Osaka Univ., Toyonaka, Japan
fDate :
3/1/2012 12:00:00 AM
Abstract :
We investigated gain and fan-out in a current-field driven spin transistor that is driven by a current-induced magnetic field. The basic structure of the transistor consisted of a coplanar waveguide for magnetic field application and an MgO-based magnetic tunnel junction with high magnetoresistance and low resistance area product. Under an assisting ac magnetic field and a dc bias voltage of 0.4 V, we demonstrated substantial power gain of 130, current gain of 4.9, and a fan-out value of 5.7. The scaling of the fan-out value in this device is discussed in detail. The current-field driven spin transistor is proven to be a promising candidate as a basic component of a nonvolatile logic device.
Keywords :
coplanar waveguides; magnetoelectronics; transistors; tunnelling magnetoresistance; MgO; MgO-based magnetic tunnel junction; assisting AC magnetic field; coplanar waveguide; current gain; current-field driven spin transistor; current-induced magnetic field; dc bias voltage; fan-out value scaling; magnetic field application; magnetoresistance; nonvolatile logic device component; power gain; resistance area product; transistor structure; voltage 0.4 V; Junctions; Magnetic fields; Magnetic tunneling; Resistance; Saturation magnetization; Thermal stability; Transistors; Fan-out; magnetic tunnel junctions (MTJs); spin transistor; spintronics;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2170085
