The field of mixed reality and immersive technologies is rapidly advancing, with a focus on improving human-robot collaboration, seamless interactions, and efficient workflows. Researchers are exploring the application of mixed reality interfaces for managing teams of mobile robots, enabling operators to monitor and control multiple robots simultaneously. Additionally, there is a growing interest in developing immersive interfaces for medical imaging segmentation, utilizing extended reality and stylus-driven annotation to mitigate workflow fragmentation and cognitive demands. The use of cinematic reality and mixed-dimensional information spaces is also being investigated, aiming to provide more intuitive and immersive ways to interact with complex information. Notable papers in this area include: HORUS, which presents a comprehensive mixed reality interface for managing teams of mobile robots. The dissertation on Seamless and Efficient Interactions within a Mixed-Dimensional Information Space, which introduces new interactive techniques and systems for realizing seamless interactions. Beyond the Desktop: XR-Driven Segmentation with Meta Quest 3 and MX Ink, which evaluates the usability and clinical applicability of an extended reality-based segmentation tool for anatomical CT scans.