[HTML][HTML] Emerging rare-earth doped material platforms for quantum nanophotonics
Rare-earth dopants are arguably one of the most studied optical centers in solids, with
applications spanning from laser optoelectronics, biosensing, lighting to displays …
applications spanning from laser optoelectronics, biosensing, lighting to displays …
Recent advances in rare earth doped inorganic crystalline materials for quantum information processing
Since quantum information technologies are expected to offer communication security and
high computational capacities, research in the field is currently attracting a lot of attention …
high computational capacities, research in the field is currently attracting a lot of attention …
Defect engineering for quantum grade rare-earth nanocrystals
Nanostructured systems that combine optical and spin transitions offer new functionalities for
quantum technologies by providing efficient quantum light–matter interfaces. Rare-earth …
quantum technologies by providing efficient quantum light–matter interfaces. Rare-earth …
Subkilohertz optical homogeneous linewidth and dephasing mechanisms in : ceramics
We report an optical homogeneous linewidth of 580±20 Hz of Er 3+: Y 2 O 3 ceramics at
millikelvin temperatures, narrowest so far in rare-earth doped ceramics, as well as a slow …
millikelvin temperatures, narrowest so far in rare-earth doped ceramics, as well as a slow …
YHO, an air-stable ionic hydride
N Zapp, H Auer, H Kohlmann - Inorganic Chemistry, 2019 - ACS Publications
Metal hydride oxides are an emerging field in solid-state research. While some lanthanide
hydride oxides (Ln HO) were known, YHO has only been found in thin films so far. Yttrium …
hydride oxides (Ln HO) were known, YHO has only been found in thin films so far. Yttrium …
[HTML][HTML] Controlled size reduction of rare earth doped nanoparticles for optical quantum technologies
Rare earth doped nanoparticles with sub-wavelength size can be coupled to optical micro-or
nano-cavities to enable efficient single ion readout and control, a key requirement for …
nano-cavities to enable efficient single ion readout and control, a key requirement for …
Borate Hydrides as a New Material Class: Structure, Computational Studies, and Spectroscopic Investigations on Sr5(BO3)3H and Sr5(11BO3)3D
T Wylezich, R Valois, M Suta… - … A European Journal, 2020 - Wiley Online Library
The unprecedented borate hydride Sr5 (BO3) 3H and deuteride Sr5 (11BO3) 3D
crystallizing in an apatite‐related structure are reported. Despite the presence of hydride …
crystallizing in an apatite‐related structure are reported. Despite the presence of hydride …
Spectral Broadening of a Single Ion in a Nanotransistor
J Yang, J Wang, W Fan, Y Zhang, C Duan, G Hu… - Physical Review …, 2022 - APS
Single rare-earth ions in solids show great potential for quantum applications, including
single-photon emission, quantum computing, and high-precision sensing. However, the …
single-photon emission, quantum computing, and high-precision sensing. However, the …
Optical line broadening mechanisms in rare-earth doped oxide nanocrystals
Rare-earth ions in nanocrystals are promising solid-state platforms for quantum light-matter
interfaces, combining millisecond-long nuclear spin T 2 with kHz-range optical …
interfaces, combining millisecond-long nuclear spin T 2 with kHz-range optical …
Transparent Er3+-Doped Y2O3 Ceramics with Long Optical Coherence Lifetime
H Zhang, J Yang, S Gray, JA Brown, TD Ketcham… - ACS …, 2017 - ACS Publications
Er3+-doped Y2O3 nanoparticles (NPs) are used to synthesize transparent ceramics by hot
isostatic pressing. Two sizes of NPs are studied, and 40 nm NPs show better performance …
isostatic pressing. Two sizes of NPs are studied, and 40 nm NPs show better performance …