2020. December 15.
The device, thinner than a hair, can sense tiny changes of magnetic fields. Experimental work published in Nano Letters by BME's Péter Makk and co-authors at Uni Basel.
Interview with Péter Makk on the BME website (in Hungarian):
http://www.bme.hu/hirek/20201204/A_TTK_kutatoja_segitett_miniatur_eszkoz...
http://www.bme.hu/hirek/20201204/A_TTK_kutatoja_segitett_miniatur_eszkoz...
Interview with Péter Makk on Kossuth Radio (in Hungarian): mp4 file (11.8 MB) (from 1:15 till 4:18)
News item at hvg.hu (in Hungarian):
https://m.hvg.hu/tudomany/20200910_szupravezetes_squid_magneses_mezo_merese
https://m.hvg.hu/tudomany/20200910_szupravezetes_squid_magneses_mezo_merese
Press release of the University of Basel:
https://www.unibas.ch/en/News-Events/News/Uni-Research/A-tiny-instrument...
https://www.unibas.ch/en/News-Events/News/Uni-Research/A-tiny-instrument...
This research is part of an international project, aiming to find topological excitations in graphene. Project website:
https://dept.physics.bme.hu/Topograph
https://dept.physics.bme.hu/Topograph
Website of the BME Nanoelectronics research group:
https://nanoelectronics.physics.bme.hu/
https://nanoelectronics.physics.bme.hu/
Website of Péter Makk:
https://dept.physics.bme.hu/Makk_Peter
https://dept.physics.bme.hu/Makk_Peter