Antiferromagnets have attracted extensive interest as a material platform in spintronics. So
far, antiferromagnet-enabled spin–orbitronics, spin-transfer electronics and spin caloritronics …

Antiferromagnetic (AFM) spintronics is an emerging field, with significant advances in
particular in the study of the tunable spin generation, transport, manipulation, and detection …

Magnonics addresses the physical properties of spin waves and utilizes them for data
processing. Scalability down to atomic dimensions, operation in the GHz-to-THz frequency …

Magnonics is a research field complementary to spintronics, in which the quanta of spin
waves (magnons) replace electrons as information carriers, promising lower dissipation …

Abstract 2D multiferroics with magnetoelectric coupling combine the magnetic order and
electric polarization in a single phase, providing a cornerstone for constructing high‐density …

In antiferromagnets, the efficient transport of spin-waves has until now only been observed
in the insulating antiferromagnet hematite, where circularly (or a superposition of pairs of …

Antiferromagnets are promising platforms for transduction and transmission of quantum
information via magnons—the quanta of spin waves—and they offer advantages over …

We study theoretically and experimentally the spin pum** signals induced by the
resonance of canted antiferromagnets with Dzyaloshinskii-Moriya interaction and …

Spin-waves in antiferromagnets hold the prospects for the development of faster, less power-
hungry electronics and promising physics based on spin superfluids and coherent magnon …

We report on coherent propagation of antiferromagnetic (AFM) spin waves over a long
distance (∼ 10 μ m) at room temperature in a canted AFM α-Fe 2 O 3 owing to the …