Abstract: The virtual simulation experiment of spin dynamics of quantum materials is based on the research content of the secondary discipline of condensed matter physics, combined with the background of undergraduate solid state physics and quantum mechanics courses. New contents and technologies in cutting-edge research are introduces into experimental teaching in a timely manner so as to stimulate undergraduates’ keen perception and exploration awareness of cutting-edge new physical phenomena, theories and technologies. The whole process of extremely low temperature neutron scattering experiment was highly simulated by 3D simulation technology. Through two solid state physics experiments, the methods of neutron elastic and inelastic scattering experimental research problems is mastered, and the interaction mechanism of microscopic particles in solids is understood. Through the study of three cutting-edge research experiments, the research methods and ideas of the microscopic mechanism of quantum materials is mastered. By independently setting experimental conditions, completing data collection and analyzing experimental data, students’ professional practice ability can be improved. This experimental course combines digital highquality resources with undergraduate experimental teaching projects, which is high-order, innovative and challenging. It was selected as the “second batch of national first-class undergraduate courses”.

Key words: quantum materials, spin dynamics, neutron scattering, virtual simulation, national first-class undergraduate courses