期刊: NATURE PHOTONICS, 2021; 15 (9)
Fractals are fascinating, not only for their aesthetic appeal but also for allowing the investigation of physical properties in non-integer dimensions......
期刊: NATURE PHOTONICS, 2021; 15 (8)
The basic principle of quantum mechanics' guarantees the unconditional security of quantum key distribution (QKD)(2-6) at the cost of forbidding the a......
期刊: NATURE PHOTONICS, 2021; 15 (7)
Colloidal quantum dots are promising photoactive materials that enable plentiful photonic and optoelectronic applications ranging from lasers, display......
期刊: NATURE PHOTONICS, 2021; 15 (9)
Metal halide perovskite solar cells have demonstrated a high power conversion efficiency (PCE), and further enhancement of the PCE requires a reductio......
期刊: NATURE PHOTONICS, 2021; 15 (5)
There is an ever-growing demand for artificial intelligence. Optical processors, which compute with photons instead of electrons, can fundamentally ac......
Two quantum repeater segments are connected via on-demand entanglement swapping by using two atomic quantum memories. The efficiency improves from a q......
Fluoride-treated CsPbBr3 nanocrystals emit light with near unity efficiency at temperatures of up to 373 K. The thermal quenching of light emission is......
Terahertz-driven acceleration has recently emerged as a route for delivering ultrashort bright electron beams efficiently, reliably and in a compact s......
期刊: NATURE PHOTONICS, 2021; 15 (2)
Electroluminescence efficiencies of metal halide perovskite nanocrystals (PNCs) are limited by a lack of material strategies that can both suppress th......
期刊: NATURE PHOTONICS, 2021; 15 (3)
Materials that exhibit X-ray-excited luminescence have great potential in radiation detection, security inspection, biomedical applications and X-ray ......
期刊: NATURE PHOTONICS, 2021; 15 (2)
Distributed quantum metrology can enhance the sensitivity for sensing spatially distributed parameters beyond the classical limits. Here we demonstrat......
期刊: NATURE PHOTONICS, 2021; 15 (2)
The interaction between a quantum particle's spin angular momentum' and its orbital angular momentum(2) is ubiquitous in nature. In optics, the spin-o......
期刊: NATURE PHOTONICS, 2021; 15 (4)
Photonic quantum information processing, one of the leading platforms for quantum technologies(1-5), critically relies on optical quantum interference......
期刊: NATURE PHOTONICS, 2021; 15 (3)
Two independent studies employing the same narrowband deep-blue emitter, nu-DABNA, but different energy transfer schemes, achieve efficient and stable......
