arxiv, vol.0, no.0, 2018 (Non Peer-Reviewed Journal)
We investigate temperature-dependent spectral properties of a single defect in hexagonal boron nitride (hBN). We observe a sharp zero-phonon line (ZPL) emission accompanied by Stokes and anti-Stokes optical phonon sidebands assisted by the Raman active low-energy ($\approx~6.5$ meV) interlayer shear mode of hBN. Spectral lineshape around the ZPL is measured down to 78 K, at which the linewidth of the ZPL is measured as 172 $\mu$eV. By employing a quadratic electron-phonon interaction, the temperature-dependent broadening and the lineshift of the ZPL are found to follow $T+T^5$ and $T+T^3$ temperature dependence, respectively. Furthermore, the temperature-dependent lineshape around the ZPL is modeled with a linear electron-phonon coupling theory, which results in the Debye-Waller factor of the ZPL emission as 0.59.