Fine-Tuning Humanoid Vision And Movement
Ongoing innovations are enabling humanoids to see and move more like humans; smell and taste are next. The post Fine-Tuning Humanoid Vision And Movement appeared first on Semiconductor Engineering.
Ongoing innovations are enabling humanoids to see and move more like humans; smell and taste are next. The post Fine-Tuning Humanoid Vision And Movement appeared first on Semiconductor Engineering.
Researchers at ETH Zurich have developed a method that uses a single ion to detect electromagnetic fields above a surface and to create a three-dimensional map of them. In the future, this approach can be used to improve chips for quantum computers and quantum sensors.
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Researchers from the Molecular Physics and Physical Chemistry departments of the Fritz Haber Institute have shown how two highly synchronized infrared (IR) laser beams can control molecules as they switch between different structural conformations. Their study provides a new window into how molecules rearrange themselves during chemical reactions, offering fundamental insights into the microscopic
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The transmission of optical information through random scattering media is a major challenge in optics, biomedical imaging, telecommunications and remote sensing. When light passes through a turbid or diffusive medium, such as biological tissue or a randomly structured optical material, the original image information can be severely distorted, making reliable recovery difficult.
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