How Floating Microbes Could Live in the Acid Clouds of Venus

A team of planetary scientists has proposed a hypothetical life cycle that could allow microbes to survive on Venus by migrating between different atmospheric layers.

Scientists discover way to make quantum states last 10,000 times longer

If we can harness it, quantum technology promises fantastic new possibilities. But first, scientists need to coax quantum systems to stay yoked for longer than a few millionths of a second.

Simple mod makes quantum states last 10,000 times longer

A team of scientists has announced the discovery of a simple modification that allows quantum systems to stay operational -- or 'coherent' -- 10,000 times longer than before.

New precision search for dark matter from ATLAS Experiment

The nature of dark matter remains one of the great unsolved puzzles of fundamental physics. Unexplained by the Standard Model, dark matter has led scientists to probe new physics models to understand its existence. Many such theoretical scenarios postulate that dark matter particles could be produced in the intense high-energy proton–proton collisions of the LHC. While the dark matter would escape the ATLAS experiment at CERN unseen, it could occasionally be accompanied by a visible jet of particles radiated from the interaction point, thus providing a detectable signal.

Crystallization of colloids secured to oil-water interface responding to laser illumination

A team of researchers at the University of Cambridge has developed a method for the crystallization of colloids secured to an oil-water interface in response to laser illumination. In their paper published in the journal Physical Review Letters, the group describes their method and possible uses for it.

Demonstrating entanglement through a fiber cable with high fidelity

A team of researchers from Heriot-Watt University, the Indian Institute of Technology and the University of Glasgow has demonstrated a way to transport entangled particles through a commercial fiber cable with 84.4% fidelity. In their paper published in the journal Nature Physics, the group describes using a unique attribute of entanglement to achieve such high fidelity.

New super-resolution method reveals fine details without constantly needing to zoom in

Since the early 1930s, electron microscopy has provided unprecedented access to the alien world of the extraordinarily small, revealing intricate details that are otherwise impossible to discern with conventional light microscopy. But to achieve high resolution over a large specimen area, the energy of the electron beams needs to be cranked up, which is costly and detrimental to the specimen under observation.

5 NASA Science Projects That Can Help Teach Kids Astronomy

Kids and adults can get involved these citizen science experiments from NASA researchers. Each one comes with educational materials that can help you learn about everything from alien planets to finding asteroids.

New way to check the quality of nanomaterials like graphene

A new way to check the quality of nanomaterials like graphene has emerged.

New advance in superconductors with 'twist' in rhombohedral graphite

An international research team has revealed a nanomaterial that mirrors the 'magic angle' effect originally found in a complex human-made structure known as twisted bilayer graphene -- a key area of study in physics in recent years.


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