Metallic delafossites are fascinating layered materials with exceptionally high electrical
conductivity and surface polarity. The high conductivity is produced by the two-dimensional …

The natural-heterostructure concept realized in delafossites highlights these layered oxides.
While metallic, band-or Mott-insulating character may be associated with individual layers …

Interconnect resistance and reliability have emerged as critical factors limiting the
performance of advanced CMOS circuits. With the slowdown of transistor scaling …

Rashba interfaces yield efficient spin-charge interconversion and give rise to nonreciprocal
transport phenomena. Here, we report magnetotransport experiments in few-nanometer …

The interaction between spin and charge degrees of freedom offers a powerful tool to
manipulate magnetization in memories by the current induced spin–orbit torque. This novel …

In materials informatics and computational design, ionic radius is an essential physical
feature needed to predict and model structures and other material properties. Currently, the …

Controlling spin wave excitations in magnetic materials underpins the burgeoning field of
magnonics. Yet, little is known about how magnons interact with the conduction electrons of …

Electronic states of a correlated material can be effectively modified by structural variations
delivered from a single-crystal substrate. In this paper, we show that the CrN films grown on …

The current challenge to realizing continuously tunable magnetism lies in our inability to
systematically change properties, such as valence, spin, and orbital degrees of freedom, as …

Magnetic frustration, realized in the special geometrical arrangement of localized spins,
often promotes topologically nontrivial spin textures in the real space and induces …