Device-Driven Experimental Approaches to Extreme Quantum Functional Matter

Abstract

Advancements in semiconductor technology have continually propelled the evolution of ultra-fine device fabrication techniques, now a cornerstone in the field of condensed matter experimental physics. These developments have paved the way for transforming various materials into device architectures. The charge transport properties are crucially tied to the practical applications of quantum functional materials and extend the frontier of experimentation into the realm of ultrafine extreme conditions previously unattainable. This article aims to explore how device fabrication methodologies can be leveraged in quantum functional material research.