“…By measuring the material's time-dependent response to one, two or more THz pulses, which corresponds to one-dimensional coherent spectrum (1DCS), two-dimensional coherent spectrum (2DCS), and generally multi-dimensional coherent spectrum (MDCS), the spin dynamics, energy levels, as well as interactions between the spins can be probed. 2DCS has also been discussed theoretically as a powerful probe of observing fractionalization, decoherence, and wavefunction properties in quantum spin liquids [27][28][29][30][31], low-dimensional magnets [32][33][34][35][36][37], and random magnets [38]. It has been experimentally demonstrated that THz pulses enable the detection [39,40] and coherent control [41] of collective excitations in the spin degrees of freedom, with their quanta referred to as magnons [42].…”