Add to ORKGHexagonal boron nitride has been found to host color centers that exhibit single-photon emission, but the microscopic origin of these emitters is unknown. We propose boron dangling bonds as the likely source of the observed single-photon emission around 2 eV. An optical transition where an electron is excited from a doubly occupied boron dangling bond to a localized B p_{z} state gives rise to a zero-phonon line of 2.06 eV and emission with a Huang-Rhys factor of 2.3. This transition is linearly polarized with the absorptive and emissive dipole aligned. Because of the energetic position of the states within the band gap, indirect excitation through the conduction band will occur for sufficiently large excitation energies, leading ...
The two-dimensional material hexagonal boron nitride (hBN) hosts single-photon emitters active at ro...
We report on multicolor excitation experiments with color centers in hexagonal boron nitride at cryo...
Light emitters in wide-band-gap semiconductors are of great fundamental interest and have potential ...
Hexagonal boron nitride has been found to host color centers that exhibit single-photon emission, bu...
Future light-based quantum technologies will depend on generation and manipulation of single photons...
In recent years, mono-layers and multi-layers of hexagonal boron nitride (hBN) have been demonstrate...
© 2016 OSA. We demonstrate first room temperature, and ultrabright single photon emission from a col...
© 2017 IEEE. Excitation of single photon emitters via a two-photon process can be employed for high ...
The development of photonic based quantum technologies such as quantum encryption and quantum comput...
We demonstrate first room temperature, and ultrabright single photon emission from a color center in...
We theoretically study physical properties of the most promising color center candidates for the rec...
We investigate the distribution and temperature-dependent optical properties of sharp, zero-phonon e...
Single-photon emitters (SPEs) in hexagonal boron nitride (hBN) have garnered increasing attention ov...
Color centers in hexagonal boron nitride (h-BN) are among the brightest emission centers known, yet ...
Hexagonal boron nitride (hBN) is an emerging two-dimensional material for quantum photonics owing to...
The two-dimensional material hexagonal boron nitride (hBN) hosts single-photon emitters active at ro...
We report on multicolor excitation experiments with color centers in hexagonal boron nitride at cryo...
Light emitters in wide-band-gap semiconductors are of great fundamental interest and have potential ...
Hexagonal boron nitride has been found to host color centers that exhibit single-photon emission, bu...
Future light-based quantum technologies will depend on generation and manipulation of single photons...
In recent years, mono-layers and multi-layers of hexagonal boron nitride (hBN) have been demonstrate...
© 2016 OSA. We demonstrate first room temperature, and ultrabright single photon emission from a col...
© 2017 IEEE. Excitation of single photon emitters via a two-photon process can be employed for high ...
The development of photonic based quantum technologies such as quantum encryption and quantum comput...
We demonstrate first room temperature, and ultrabright single photon emission from a color center in...
We theoretically study physical properties of the most promising color center candidates for the rec...
We investigate the distribution and temperature-dependent optical properties of sharp, zero-phonon e...
Single-photon emitters (SPEs) in hexagonal boron nitride (hBN) have garnered increasing attention ov...
Color centers in hexagonal boron nitride (h-BN) are among the brightest emission centers known, yet ...
Hexagonal boron nitride (hBN) is an emerging two-dimensional material for quantum photonics owing to...
The two-dimensional material hexagonal boron nitride (hBN) hosts single-photon emitters active at ro...
We report on multicolor excitation experiments with color centers in hexagonal boron nitride at cryo...
Light emitters in wide-band-gap semiconductors are of great fundamental interest and have potential ...