Artículo o Paper
First-Principles Identification of Single Photon Emitters Based on Carbon Clusters in Hexagonal Boron Nitride
Fecha
2021-02-18Registro en:
Jara, C., Rauch, T., Botti, S., Marques, M. A., Norambuena, A., Coto, R., ... & Munoz, F. (2021). First-principles identification of single photon emitters based on carbon clusters in hexagonal boron nitride. The Journal of Physical Chemistry A, 125(6), 1325-1335.
1089-5639
eISSN 1520-5215
WOS: 000621416800002
PMID: 33554602
10.1021/acs.jpca.0c07339
Autor
Jara, Cesar
Rauch, Tomas
Botti, Silvana
Marqués, Miguel A. L.
Castellanos-Aguila, J. E.
Coto, Raúl
Maze, Jerónimo R.
Muñoz, Francisco
Norambuena, Ariel [Univ Mayor, Fac Estudios Interdisciplinarios, Ctr Invest DAiTA Lab, Chile]
Coto, Raúl [Univ Mayor, Fac Estudios Interdisciplinarios, Ctr Invest DAiTA Lab, Chile]
Institución
Resumen
A recent study associates carbon with single photon emitters (SPEs) in hexagonal boron nitride (h-BN). This observation, together with the high mobility of carbon in h-BN, suggests the existence of SPEs based on carbon clusters. Here, by means of density functional theory calculations, we studied clusters of substitutional carbon atoms up to tetramers in h-BN. Two different conformations of neutral carbon trimers have zero-point line energies and shifts of the phonon sideband compatible with typical photoluminescence spectra. Moreover, some conformations of two small C clusters next to each other result in photoluminescence spectra similar to those found in the experiments. We also showed that vacancies are unable to reproduce the typical features of the phonon sideband observed in most measurements because of the large spectral weight of low-energy breathing modes, ubiquitous in such defects.