A faster way to preserve privacy online
New research enables users to search for information without revealing their queries, based on a method that is 30 times faster than comparable prior techniques.
New research enables users to search for information without revealing their queries, based on a method that is 30 times faster than comparable prior techniques.
New technique could diminish errors that hamper the performance of super-fast analog optical neural networks.
A new technique that accurately measures how atom-thin materials expand when heated could help engineers develop faster, more powerful electronic devices.
Branchlike metallic filaments can sap the power of solid-state lithium batteries. A new study explains how they form and how to divert them.
Scientists have confirmed that a “stabilizing feedback” on 100,000-year timescales keeps global temperatures in check.
An experimental platform that puts moderation in the hands of its users shows that people do evaluate posts effectively and share their assessments with others.
A new study links very dry and very humid indoor environments with worse Covid-19 outcomes.
Up to one-third of the carbon consumed by Prochlorococcus may come from sources other than photosynthesis.
Computing systems that appear to generate brain-like activity may be the result of researchers guiding them to a specific outcome.
Researchers have developed a technique that could help fine-tune the production of monoclonal antibodies and other useful proteins.
New analysis takes account of natural fluctuations and predictability to assess which parts of an ecosystem are most threatened by climate change and other disruptions.
Researchers develop a technique for precisely arranging nanoscale particles on a surface, such as a silicon chip, that doesn’t damage the material.
Using machine learning and simple X-ray spectra, researchers can uncover compounds that might enable next-generation computer chips or quantum devices.
A new method uses optics to accelerate machine-learning computations on smart speakers and other low-power connected devices.
Simple microparticles can beat rhythmically together, generating an oscillating electrical current that could be used to power microrobotic devices.