Sharma, Chithra H.Chithra H.SharmaZhao, PaiPaiZhaoTiemann, LarsLarsTiemannPrada, MartaMartaPradaDangwal Pandey, ArtiArtiDangwal PandeyStierle, AndreasAndreasStierleBlick, Robert H.Robert H.Blick2022-04-012022-04-012022-03-03AIP Advances 12 (3): 035111 (2021-10-31)http://hdl.handle.net/11420/12149Coupling graphene's excellent electron and spin transport properties with higher spin-orbit coupling material allows tackling the hurdle of spin manipulation in graphene, due to the proximity to van-der-Waals layers. Here we use magneto transport measurements to study the electron spin resonance on a combined system of graphene and MoS2 at 1.5K. The electron spin resonance measurements are performed in the frequency range of 18-33GHz, which allows us to determine the g-factor in the system. We measure average g-factor of 1.91 for our hybrid system which is a considerable shift compared to what is observed in graphene on SiO2. This is a clear indication of proximity induced SOC in graphene in accordance with theoretical predictions.en2158-322620223American Institute of Physicshttps://creativecommons.org/licenses/by/4.0/Physics - Mesoscopic Systems and Quantum Hall EffectPhysikTechnikJournal Article10.15480/882.427010.1063/5.007707710.15480/882.42702111.00530v2Journal Article