Kuhlolwe e-High Field Magnetic Laboratory (HFML) eRadboud University Nijmegen, ukusebenza kwe-GHS-C Sensors emasimini kazibuthe kuze kube ngama-30 t nase-crybogenic (phansi ku-1.5 k).
Izinzwa ziletha ukunemba okungakaze kufinyeleleke ngaphambili ngaphansi kwalezi zimo, ukusekela amaphutha okungenzi okungekho emthethweni aphansi kwe-1% kulo lonke uhla oluphelele lokulinganisa.
Amandla wokulinganisa amandla okuguqulwa ama-magnetic amadivaysi we-GHS-C kungenxa yezinto ze-graphene sensor.
Ukuhamba kwe-elektroni ephezulu ye-Electron Ukuhumusha ngokuqondile kumandla okuzwa aphezulu, okugcinwe kulo lonke uhla lwamandla kazibuthe - okwenza la madivayisi alula kakhulu ukukala.
Uhlobo olunezinhlangothi ezimbili ze-grapheene futhi kusho ikhwalithi ephezulu, ephindaphindekayo futhi enembile imininingwane inikezwe inzwa ye-ghs-c, ngaphandle kokuvinjwa nokungavikeleki emasimini angena emhlane.
Lesi yisinyathelo esingaphezulu kwezinzwa zehholo lehholo elijwayelekile elibonisa ama-asymmetry, akhiqiza izilinganiso ezihlukile ngokuya nge-Field Discy.
Inzuzo eyengeziwe ye-GHS-C Range ukuhlinzwa kwawo okuphansi kakhulu okuholela ekuchithekeni kwamandla ku Izibonelo zezicelo ezifanele zibandakanya i-computer ephansi yokushisa ye-quantum, ukuqapha ama-magnet asezingeni eliphakeme ku-Next Morsi System, Ukulawulwa Kwensimu Yezinhlayiya, nezinye izinsimbi zesayensi nezokwelapha. Izinzwa nazo zingasetshenziswa ngokuqondile ekuhlolweni kwe-physics eziyisisekelo e.g., Quantum physics ucwaningo, ama-superconicivity kanye nama-spiptonics. Image: paragraf - isithombe sibonisa (ngakwesokudla) I-37 T Magnet esetshenziselwa ukuhlola i-GHS-C, nge-crostat kanye nokushisa okuguquguqukayo okufakiwe ngaphakathi kanye nezilinganiso ze-elekthronikhi zohlobo lwegesi (kwesobunxele)