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ScienceDaily: Matter & Energy News |
Researchers model accelerator magnets' history using machine learning approach Posted: 15 Jun 2022 04:21 PM PDT After a long day of work, you might feel tired or exhilarated. Either way, you are affected by what happened to you in the past. Accelerator magnets are no different. What they went through -- or what went through them, like an electric current -- affects how they will perform in the future. Without understanding a magnet's past, researchers might need to fully reset them before starting a new experiment, a process that can take 10 or 15 minutes. Some accelerators have hundreds of magnets, and the process can quickly become time-consuming and costly. |
Giving metal to microbes could reduce greenhouse gas Posted: 15 Jun 2022 04:21 PM PDT Collaborative research finds a lack of available metals may be responsible for more nitrous oxide than previously thought. |
New material paves the way for remote-controlled medication and electronic pills Posted: 15 Jun 2022 07:29 AM PDT Biomedicines are produced by living cells and are used to treat cancer and autoimmune diseases among other things. One challenge is that the medicines are very expensive to produce, something that limits global access. Now researchers have invented a material that uses electrical signals to capture and release biomolecules. The new and efficient method may have a major impact in the development of biomedicines and pave the way for the development of electronic pills and drug implants. |
High-intensity focused ultrasound (HIFU) can control prostate cancer with fewer side effects Posted: 15 Jun 2022 07:29 AM PDT High-intensity focused ultrasound (HIFU) can help some men with prostate cancer avoid surgery or radiation. |
Moth wing-inspired sound absorbing wallpaper in sight after breakthrough Posted: 15 Jun 2022 07:29 AM PDT Experts at the University of Bristol have discovered that the scales on moth wings act as excellent sound absorbers even when placed on an artificial surface. |
All-optical switching on a nanometer scale Posted: 15 Jun 2022 07:29 AM PDT Ultrafast light-driven control of magnetization on the nanometer length scale is key to achieve competitive bit sizes in next generation data storage technology. Researchers have successfully demonstrated the ultrafast emergence of all-optical switching by generating a nanometer scale grating by interference of two pulses in the extreme ultraviolet spectral range. |
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