University of Technology Sydney researchers have discovered a new way to control tiny quantum light sources by twisting ...
Vacuum-deposited quasi‑2D X‑type perovskite PeLEDs achieve 21.9% external quantum efficiency and 16.8 nm linewidth ...
Scientists from the Faculty of Physics at the University of Warsaw, in collaboration with teams from the National University ...
A simple twist of ultra-thin material gave scientists surprising control over quantum light, bringing future quantum ...
Researchers at The University of Manchester have developed a new computational approach to help identify two-dimensional ...
Researchers found that twisting layered sheets of hexagonal boron nitride can dramatically change the light produced by quantum emitters embedded within the material. The technique offers an ...
Surface preservation (a) Optical image of MBT-on-MBT sample, with the capping flake s1 and target flake s2 outlined in yellow and black, respectively. (b) TEM image of a homojunction interface with a ...
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Polish research in 2D layered material opens up a new path to build quantum chips
Scientists at the Faculty of Physics at the University of Warsaw in Poland have ...
Scientists at the Max Planck Institute for the Science of Light (MPL) have developed a technique for interrogating molecules on surfaces with spectroscopic precision, thereby reaching the ultimate ...
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A new way to control tiny quantum light sources by twisting atomically thin layers of hexagonal boron nitride
In a paper published in Science Advances, researchers at the University of Technology Sydney (UTS) in collaboration with the University of Minnesota and Kyung Hee University have found a new way to ...
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