Acquiring a magneto-optical cryostat will enable a broad range of low-temperature optical spectroscopy experiments, serving as a critical shared resource for two research groups studying advanced materials' optical and electronic properties. The system will support steady-state and time-resolved spectroscopy, allowing for detailed investigations of light-matter interactions, excitonic dynamics, and quantum phenomena in emerging materials such as 2D semiconductors, quantum dots, and topological materials. With the ability to operate over a variable temperature range and apply magnetic fields, the cryostat will provide essential capabilities for studying temperature-dependent optical responses and magneto-optical effects, including Zeeman splitting and valley polarization...
