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3 w

How flies grow their gyroscopes: Study reveals how flight stabilizers take shape

How flies grow their gyroscopes: Study reveals how flight stabilizers take shape

A team from the Institute for Neurosciences (IN), a joint center of the Spanish National Research Council (CSIC) and the Miguel Hernández University (UMH) in Elche, has revealed how a structure essential for fly flight, the haltere, is formed. This small organ, located behind the main wings, functions as a biological gyroscope that helps the insect stay stable in the air.

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3 w

Decades-old mystery of AlCl dipole moment resolved

Decades-old mystery of AlCl dipole moment resolved

In a study that closes a long-standing knowledge gap in fundamental science, researchers Boerge Hemmerling and Stephen Kane at the University of California, Riverside, have successfully measured the electric dipole moment of aluminum monochloride (AlCl), a simple yet scientifically crucial diatomic molecule.

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3 w

Harnessing magnons for quantum information processing

Harnessing magnons for quantum information processing

Researchers have determined how to use magnons—collective vibrations of the magnetic spins of atoms—for next-generation information technologies, including quantum technologies with magnetic systems.

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3 w

Molecular hopscotch boosts light upconversion

Molecular hopscotch boosts light upconversion

A new molecule that lets energy hop around quickly within its structure makes the upcycling of light more efficient and tunable. The Kobe University development lays out a design strategy for better solar power harnessing as well as medical and sensor applications.

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3 w

Shape-shifting hybrid materials offer bright future for solar and LED innovation

Shape-shifting hybrid materials offer bright future for solar and LED innovation

In today's energy-intensive environment, designing new devices for more efficient and renewable energy sources is at the forefront of scientific research. A particularly interesting approach utilizes Ruddlesden-Popper perovskites—a type of layered material made from alternating sheets of inorganic and organic components. These materials are potentially ideal for several applications, including light-emitting diodes (LEDs), thermal energy storage and solar-panel technology.

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3 w

Understanding us: Researchers apply algorithm to decode complex genome sequences

Understanding us: Researchers apply algorithm to decode complex genome sequences

Over the last 10 years, breakthroughs in understanding the genetic instructions passed from parent to offspring have put researchers closer than ever before to efficiently decoding DNA with 100% accuracy. However, this analysis approach, called genome sequencing, still poses a challenge for certain regions of the genome.

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3 w

New class of 'X-type' antiferromagnets enables sublattice-selective spin transport

New class of 'X-type' antiferromagnets enables sublattice-selective spin transport

A research team led by Prof. Shao Dingfu from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has predicted a new class of antiferromagnetic materials with unique cross-chain structures, termed "X-type antiferromagnets." These materials exhibit sublattice-selective spin transport and unconventional magnetic dynamics, offering new possibilities for next-generation spintronic devices.

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3 w

A grassland bird eavesdrops on prairie dog calls to keep itself safe from predators

A grassland bird eavesdrops on prairie dog calls to keep itself safe from predators

Prairie dogs are the Paul Reveres of the Great Plains: They bark to alert neighbors to the presence of predators, with separate calls for dangers coming by land or by air.

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3 w

Volcano 'hidden in plain sight' could help date Mars—and its habitability

Volcano 'hidden in plain sight' could help date Mars—and its habitability

Georgia Tech scientists have uncovered evidence that a mountain on the rim of Jezero Crater—where NASA's Perseverance Rover is currently collecting samples for possible return to Earth—is likely a volcano. Called Jezero Mons, it is nearly half the size of the crater itself and could add critical clues to the habitability and volcanism of Mars, transforming how we understand Mars' geologic history.

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3 w

A quantum random access memory based on transmon-controlled phonon routers

A quantum random access memory based on transmon-controlled phonon routers

Recent technological advances have opened new exciting possibilities for the development of cutting-edge quantum devices, including quantum random access memory (QRAM) systems. These are memory architectures specifically meant to be integrated inside quantum computers, which can simultaneously retrieve data from multiple 'locations' leveraging a quantum effect known as coherent superposition.

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