Fundamental phenomena of quantum mechanics explored with neutron interferometers

TL;DR

This paper reviews recent experimental efforts using neutron interferometry and polarimetry to explore fundamental phenomena in quantum mechanics, highlighting the ongoing importance of neutron-optics methods in quantum research.

Contribution

It provides a comprehensive overview of recent neutron-optical experiments that investigate fundamental quantum phenomena, emphasizing advancements in neutron interferometry and polarimetry.

Findings

Neutron interferometry effectively probes quantum phenomena.

Recent experiments have advanced understanding of quantum mechanics.

Neutron-optical methods remain vital in fundamental quantum research.

Abstract

Ongoing fascination with quantum mechanics keeps driving the development of the wide field of quantum-optics, including its neutron-optics branch. Application of neutron-optical methods and, especially, neutron interferometry and polarimetry has a long-standing tradition for experimental investigations of fundamental quantum phenomena. We give an overview of related experimental efforts made in recent years.