Long-Range Crossed Andreev Reflection In A Topological Insulator Nanowire Proximitized By A Superconductor

The study investigates crossed Andreev reflection in a topological insulator nanowire proximitized by a superconductor, exploring its implications for quantum computing and superconductivity. The research involved a collaborative effort between experimentalists, who fabricated devices and conducted measurements, and theorists, who provided critical analysis. The findings contribute to understanding the interplay between topology and superconductivity, with data openly available to support reproducibility and further exploration in the field.

The study investigates crossed Andreev reflection (CAR) in a topological insulator nanowire proximitized by a superconductor. This setup induces superconductivity and may lead to phenomena such as Majorana fermions, particles that are their antiparticles. The research employs data from Figures 1 through 6, each providing unique insights into different aspects of the experiment.

This research advances our understanding of interactions between topological insulators and superconductors, potentially contributing to quantum technologies. The detailed analysis across figures effectively supports the conclusions.