Fraunhofer Institute for Digital Medicine MEVISGLASS ART: MAKING MRI TANGIBLE
Artist | Gregory Alliss, (GB)
Art Form | Glass Art and Immersive Installation
Motivation | How can the complex physical processes behind Magnetic Resonance Imaging (MRI) and the development of Magnetic Resonance sequences be made visible and tangible? This is the question that guided British glass artist Gregory Alliss during his STEAM Imaging VI residency. The resulting exhibition, Between Glass and Magnetic Fields, translates the intangible dynamics of magnetic resonance imaging, an imaging method that produces radiation-free, three-dimensional representations of the body, into the medium of glass. By merging the sensory and investigative capacities of art with scientific rigor and programming, Alliss expands the aesthetic potential of contemporary glass art. His works integrate contaminated waste materials with the tools and logic of MRI sequence development to explore the intersections of visibility, matter, and image formation.
Methods & Implementation | Between Glass and Magnetic Fields premieres at Inspace Gallery, Edinburgh, during the 2026 Edinburgh Science Festival, this April 2026. The exhibition features glass sculptures made from recycled Cathode Ray Tube (CRT) glass, from old TVs, an interactive glass object linked to MRI simulation software, video projections of MRI scans of the glass objects, and live-streamed scans from the Bremen MRI lab during the opening. Visitors can trigger imaging sequences through the interactive object and contribute their own reflections on a digital tablet, engaging in a ‘journey through glass’ that bridges art and scientific imaging. Alliss’s studio practice transforms recycled and contaminated glass into intricate art objects that also function as phantoms, proxies for human tissue in MRI experiments. When immersed in water, these glass phantoms reveal voids and contrasts that visually trace how MRI sequence commands—radio-frequency pulses, gradients, and timing—shape image formation. The work opens an aesthetic material gateway into the abstract logic of MRI, merging material practice with the advanced MRI research tool gammaSTAR.
Scientific background | MRI produces images using powerful magnetic fields in conjunction with controlledthrough controlled sequences of radio-frequency pulses, gradients, and timing parameters. The glass phantoms developed by Alliss make these invisible dynamics visible by translating them into optical contrasts—between voids, inclusions, and textured surfaces. Through STEAM Imaging VI, the artist collaborated closely with Fraunhofer MEVIS scientists and school students, co-developing and co-leading an International Fraunhofer Talent School Bremen workshop. Central to this collaboration was gammaSTAR, a modular, vendor-independent platform for MRI sequence development that bridges education, R&D, and clinical applications across domains. The project embodies the aim of democratizing science, making research processes transparent, accessible, and open to transdisciplinary creativity.
Credits | This Residency & Science Engagement Program is a partnership between Fraunhofer MEVIS in Bremen, Germany, and the Institute for Design Informatics in Edinburgh to create this unique opportunity to explore the potential for application of creative multi and transdisciplinary approaches in digital medicine. This collaboration involves the International Fraunhofer Talent School Bremen, Oberschule am Waller Ring in Bremen, and is supported by Ars Electronica in Linz, Austria.