Topologically enhanced zero-field transverse Nernstthermoelectric effect in magnetic topological semimetals
Abstract
<p indent="0mm">Magnetic topological materials are a class of advanced magnetic quantum materials that combine the topological physics and long-range magnetic order. The Weyl fermions under time-reversal sysmmetry breaking bear strong Berry curvature that probably produces topologically enhanced zero-field transverse Nernst thermoelectric effect, offering a promissing strategy for all-solid-state thermoelectric cooling based on novel physical principles.</p>