Experimental demonstration of a Josephson magnetic memory cell with a programmable \pi-junction

A. Y. Herr; C. Kirby; D. L. Miller; E. C. Gingrich; I. M. Dayton; M. G. Loving; N. P. Siwak; O. Naaman; Q. P. Herr; S. Keebaugh

arxiv: 1711.01681 · v2 · pith:EYFEYCHUnew · submitted 2017-11-06 · ❄️ cond-mat.supr-con

Experimental demonstration of a Josephson magnetic memory cell with a programmable π-junction

I. M. Dayton , T. Sage , E. C. Gingrich , M. G. Loving , T. F. Ambrose , N. P. Siwak , S. Keebaugh , C. Kirby

show 4 more authors

D. L. Miller A. Y. Herr Q. P. Herr O. Naaman

This is my paper

classification ❄️ cond-mat.supr-con

keywords josephsonmemoryjunctionmagneticcelleitherpi-junctionspin-valve

0 comments

read the original abstract

We experimentally demonstrate the operation of a Josephson magnetic random access memory unit cell, built with a Ni_80Fe_20/Cu/Ni pseudo spin-valve Josephson junction with Nb electrodes and an integrated readout SQUID in a fully planarized Nb fabrication process. We show that the parallel and anti-parallel memory states of the spin-valve can be mapped onto a junction equilibrium phase of either zero or pi by appropriate choice of the ferromagnet thicknesses, and that the magnetic Josephson junction can be written to either a zero-junction or pi-junction state by application of write fields of approximately 5 mT. This work represents a first step towards a scalable, dense, and power-efficient cryogenic memory for superconducting high-performance digital computing.

This paper has not been read by Pith yet.

Experimental demonstration of a Josephson magnetic memory cell with a programmable π-junction

discussion (0)