Our scientists have just published their research in IEEE Electron Device Letters: High-temperature Thermal Stability of a Graphene Hall Effect Sensor on Defect-engineered 4H-SiC(0001).
Humanity sees its chance in the transition to fusion energy, but mastering its potential remains challenging for materials and electronics engineers. Like everyone, we want the world to be a better place. That’s why the GET® team constantly improves its sensory platform to meet the requirements of tokamak reactors.
Now they are presenting an improved product: a high-stability device to monitor magnetic fields. With its sensitivity thousands of times higher than offered by metallic layers, the optimized graphene-on-SiC sensor makes its way toward fusion reactors. And this very innovation is backed by a publication in IEEE Electron Device Letters.
Would you like to discuss this solution or learn more directly from Tymoteusz Ciuk PHD? You can attend the 25th International Conference on High Magnetic Fields in Semiconductor Physics in Warsaw (https://hmf25.fuw.edu.pl/) as well as the European Materials Research Society Fall Meeting in Warsaw (https://www.european-mrs.com/meetings/2024-fall-meeting), where Tymoteusz will be giving his presentations – on 17th of September 17:00 – 17:15 Defect-engineered two-dimensional graphene-on-silicon-carbide platform for high-temperature magnetic diagnostics in modern fusion reactors https://secure.key4events.com/key4register/AbstractList.aspx?e=1743&preview=1&aig=-1&ai=60140 ).
#IEEE EDL #graphene #GET #HMF-25 #E-MRS