摘要
Raman spectroscopy is a versatile tool widely used for comprehensive probing of crystal information. However,generally when applied in narrow-band-gap van der Waals crystals, it is liable to form a "bug," especially in transition-metal-dichalcogenides(TMDs). That is, several resonant Raman-scattering(RS) modes will inevitably appear in the Raman spectra with strong intensity, interfering with the desired signal of optical-phonon modes.Here, we propose cross-sectional polarized Raman scattering capable of regulating the intensity of RS modes in accordance with quasi-sinusoidal rules. Typically, for MoS_2 and WS_2, when the polarization vector of excited light is along the c axis of the crystal, all RS modes are nearly completely "expunged" from the Raman spectra. The mechanism is that the absorption of most TMDs with a space group of R_(3m)for the light polarized along the c axis is infinitesimal, thus forming a small coupling intensity of electronic states excited optically and acoustic-phonon modes at point M, which in turn restrain the appearance of RS modes. The regulating strategy proposed can be applied to other van der Waals crystals so as to obtain a high signal-to-noise ratio Raman spectrum.
Raman spectroscopy is a versatile tool widely used for comprehensive probing of crystal information. However,generally when applied in narrow-band-gap van der Waals crystals, it is liable to form a "bug," especially in transition-metal-dichalcogenides(TMDs). That is, several resonant Raman-scattering(RS) modes will inevitably appear in the Raman spectra with strong intensity, interfering with the desired signal of optical-phonon modes.Here, we propose cross-sectional polarized Raman scattering capable of regulating the intensity of RS modes in accordance with quasi-sinusoidal rules. Typically, for MoS_2 and WS_2, when the polarization vector of excited light is along the c axis of the crystal, all RS modes are nearly completely "expunged" from the Raman spectra. The mechanism is that the absorption of most TMDs with a space group of R_(3m)for the light polarized along the c axis is infinitesimal, thus forming a small coupling intensity of electronic states excited optically and acoustic-phonon modes at point M, which in turn restrain the appearance of RS modes. The regulating strategy proposed can be applied to other van der Waals crystals so as to obtain a high signal-to-noise ratio Raman spectrum.
基金
National Natural Science Foundation of China(NSFC)(61427901,61604178,91333207,U1505252)
