Thermo-remnant magnetization assisted switching response

Abstract

Here, we describe the prototype for precisely scaled temperature assisted magnetic recording scheme utilizing the characteristics of thermo-remnant magnetization (TRM) in bulk SmCrO3 as a memory media. The TRM response can be exploited in completely reversible bipolar switching performances either by tuning the temperature only across a sharp thermal window Tw = 10 K, or annealing isothermally with a single pulse of field 0.1 T by flipping the direction of magnetization from 0o to 180o. The microscopic mechanism of TRM in SmCrO3 is explored by means of diffuse scattering using high energy λ = 0.4997 neutrons and thermal variation of coercivity in TN T range. It is noticed that the huge heterogeneity reflected by the estimated average spin-spin correlation length of the fluctuations in microscopic spin configuration being 90 and efficient domain wall pinning effect as the defect dimensions are approximately twice to the domain wall width, governs the peculiar characteristic of TRM in SmCrO3.