MAXLLG, Exeter Science Park | England
MAXLLG is a recently born spin-out company, originating from the University of Exeter, aiming to develop computational technologies significantly improving on the current state-of-the-art electromagnetic wave simulators.
MAXLLG’s innovation resides within its core code, where the uniquely incorporated Landau-Lifshitz- Gilbert non-linear vector magnetization motion equation differentiates the simulator from any commercially available equivalent. The company has 10 FTE staff members located in Exeter, United Kingdom. Since 2019 the company has already developed a portfolio of electromagnetic solutions, that can be applied in a broad spectrum of applications starting from microwave and RF communications, through to investigation of the materials properties based on their response to optical and electromagnetic radiation, particularly with the focus on non-linear and high-power phenomena. MAXLLG’s team currently offers an expert consultancy service for this knowledge, however, the company intends to diversify their portfolio through this project by creating a SaaS beta-prototype platform solution business model.
Role and profile of key people
Prof. Feodor Ogrin (MAXLLG node PI) is a CSO of the company, holds a PhD from Keele University.
He is an Associate Professor at the School of Physics and Astronomy, University of Exeter. He has more than 20 years of research experience in magnetism and magnetic materials. He is the author of more than 70 published research articles, with over 500 citations. He was also a project coordinator of €3m grant (EU HORIZON2020 FET-OPEN, project ABIOMATER) to develop a new class of magnetoelastic metamaterials. Feodor has an MSc from Moscow’s Institute of Physics and Technology and a PhD in Physics from Keele University. A the University of Exeter, he has had numerous EU funded research projects including Novel Wave Phenomena in Magnetic Nanostructures (NoWaPhen), Magnonics: Mastering Magnons in Magnetic Meta-Materials, Studying Sub-Picosecond Photo-Magnetic Switching with Nanometer Resolution, Spin@RT: Room Temperature Spintronics and Magnetic X-ray imaging of patterned NiFe arrays
Key Research Facilities, Infrastructure and Equipment
MAXLLG operates on the cloud computing facilities as well as the University of Exeter’s HPC facility ISCA, and to the Tier-2 ARM Supercomputer Isambard.
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