Molecule-based devices may govern the advancement of the next generation's logic and
memory devices. Molecules have the potential to be unmatched device elements as …

Molecular spin devices (MSDs) are the most promising candidate for futuristic quantum
computation, having potential to resolve spin scattering issue which compromise the utility of …

This paper reports our Monte Carlo (MC) studies aiming to explain the experimentally
observed paramagnetic molecule induced antiferromagnetic coupling between …

Nearly 70 years old dream of incorporating molecule as the device element is still
challenged by competing defects in almost every experimentally tested molecular device …

Ferromagnetic resonance modes are investigated for a trilayer system consisting of two
ferromagnetic films interacting through a nonmagnetic interlayer. Included in the model are …

Ferromagnetic resonance (FMR) modes in thin films with oblique anisotropy axis are
investigated. In such films, the anisotropy axis is tilted from the normal with a tilt angle δ. The …

Co/Ni (111) multilayers with variable cobalt thickness t Co between 0.15 and 0.35 nm and
fixed nickel thickness t Ni= 0.6 nm were grown on a Pt (1.6 nm)/Ta (3 nm) substrate by dc …

The antiferromagnetic (AFM) interlayer coupling effective field in a ferromagnetic/non-
magnetic/ferromagnetic (FM/NM/FM) sandwich structure, as a driving force, can dramatically …

We report on the dependence of the ferromagnetic resonance and magnetization on the
NiFe thickness, t, of NiFe/Cu (9Å) magnetic monolayers and symmetrical NiFe/Cu …

MATERIALS AND METHODS The PV effect was studied on the Si–AlOx–NiFe tunnel
junction. Figure 1 shows the cross-junction-shaped device fabrication process and the …