In our laboratory, we utilize a well-established low temperature magneto-optical system to obtain spectroscopic data about the temperature-dependent and magnetic field-dependent optoelectronic phenomena, such as photoluminescence (PL), electroluminescence, photocurrent, photo-induced absorption.
The low temperature magneto-optical system is a specialized facility used in the field of condensed matter physics to investigate the optical and magnetic properties of materials at extremely low temperatures. This facility employs a combination of techniques, such as cryogenic cooling and magneto-optical spectroscopy, to study the behavior of materials in the presence of magnetic fields. By lowering the temperature to cryogenic levels, typically below 10 Kelvin, researchers can observe unique phenomena like quantum effects, superconductivity, and magnetism. The magneto-optical spectroscopy allows for the measurement of optical reflectance, transmission, and emission properties of materials under varying magnetic fields. This facility plays a crucial role in advancing our understanding of complex materials and their potential applications in various fields, including electronics, quantum computing, and energy storage.