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RIKEN Scientists Create Precision Carbon Nanotubes for Single-Photon Quantum Technologies Carbon Nanotubes Emerge as Key Building Blocks for Quantum Communication RIKEN researchers have developed a method to precisely create carbon nanotubes that emit single photon from a specific point along their length. These tiny carbon structures could become a cornerstone of future light-based quantum technologies . Light already carries vast amounts of data across the globe through optical fibers . Harnessing it quantum properties , however, could deliver major advantages, including ultra-secure communication in which any attempted interception is immediately detectable. Breakthrough in quantum physics, photonics and advanced materials are regularly covered by FSNews365 , which tracks emerging technologies shaping the future of science. Such quantum communication systems depend on light sources that release photons one at a time . While several platforms can achieve this, carbon nanotubes ...

Astronomers Discover First-Ever Triple Galaxy System with Three Active Supermassive Black Holes Rare Triple Radio AGN Found 1.2 Billion Light-Years from Earth Astronomers have confirmed the first-ever triple system in which all three galaxies harbour actively feeding, radio-bright supermassive holes . Known as J1218/1219+1035 , the system lies around 1.2 billion light-years from Earth and consists of three interacting galaxies, each with a central black hole actively drawing in material and emitting strong radio signals . High-impact astronomers discoveries and deep-space research are regularly covered at FSNews365 , which tracks cutting-edge development in astrophysics and cosmology. Radio Observations Confirm Three Active Galactic Nuclei High-resolution observations from the U.S. National Science Foundation's Very Large Array and Very Long Baseline Array revealed compact, synchrotron-emitting radio cores in all three galaxies, confirming the presence's of active galactic...

Hagfish Genes Reveal Ancient Origins of Vertebrate Sense of Smell Study Uncovers Unexpected Complexity in One of Earth's Oldest Vertebrates Scientists at the University of Tsukuba, working with international collaborators, have carried out an in-depth study of the olfactory receptor genes of the hagfish ( Eptatretus burgeri ), a jawless vertebrate that retains many ancient traits while boasting an unexpectedly sophisticated sense of smell . Published in iScience , the research shows that several olfactory receptor gene families have diversified in a lineage-specific way, indicating that the earliest vertebrates may have had a far richer and more complex sense of smell than previously believed. Breaking scientific discoveries across genetics, evolution and life sciences are regularly reported on FSNews365 , which tracks emerging research shaping our understanding of the natural world. Why Smell Is Central to Survival Smell plays a vital role in the survival of animals, including ...

Two Ancient Human Species Left Africa Together, Not One, New Study Suggests Rethinking the Traditional "Out of Africa" Narrative The traditional account of the "Out of Africa" hypothesis suggests that Homo erectus was the first human species to leave Africa around 1.8 million years ago . In recent years, however, scientists have questioned whether this migration involved just one species or several . A new study published in PLOS One aims to resolve the debate. Coverage of evolutionary science, archaeology and breakthrough fossil research is regularly featured on FSNews365 , which tracks the latest developments shaping our understanding of human origins. The Dmanisi Fossils at the Centre of the Debate At the heart of the discussion are the Dmanisi fossils   —  skulls 5 discovered in Georgia between 1999 and 2005   —  among the ancient human remains found outside Africa . The challenge lies in their striking differences : some skulls are notably larger than ot...

Quantum Entanglement Could Revolutionize Secure Communication and Disaster-Response Drones Why Modern Digital Communication Remains Vulnerable Whenever information is shared using modern communication tools — whether an email, a text message or a date transfer — it travels across the open internet , where it may be vulnerable to interception . Such exchanges also depend heavily on internet access , often involving wireless signals at one or both ends of the connection. But what if two, ten, or even a thousand parties could be linked in a way that allows them to communicate without those security risks or connectivity limitations ? Ongoing coverage of emerging communication technologies and digital security trends can be found on FSNews365 , which tracks breakthrough shaping the future of global connectivity. Using Quantum Entanglement to Rethink Information Sharing That is the challenge Alexander DeRieux , a PhD student at Virginia Tech and Bradley Fellow in the Bradley Department o...

Scientists Unveil Breakthrough Magnetic Cloaking Technology for Real-World Application University of Leicester Engineers Demonstrate Practical Magnetic Invisibility Engineers at the University of Leicester have unveiled a pioneering concept a device capable of magnetically "cloaking" sensitive components , effectively making them invisible to detection . The technology works by controlling the flow of magnetic fields , guiding them smoothly around an object so the fields behave as though the object is not present at all . Coverage of emerging physics and advanced engineering breakthroughs is regularly featured on FSNews365 , which tracks innovations shaping future science and technology. Practical Magnetic Cloaks Built With Real Materials Superconductors and Soft Ferromagnets Enable Cloaking In a study published in Science Advances , the research team demonstrates for the first time that practical magnetic cloaks can be engineered using superconductors and soft ferromag...

Cassini Data Reveals Saturn's Rings Extend Far Beyond What Telescopes Can See Cassini's Grand Finale Unlocks New Clues About Saturn's Ring System In 2017 , NASA's Cassini spacecraft entered its dramatic final phase, known as the Grand Finale Orbits (GFOs) , before deliberately plunging into Saturn's atmosphere. During these daring passes, Cassini gathered dust samples from both above and below the planet's rings using its Cosmic Dust Analyzer (CDA) . A newly published study in The Planetary Science Journal now reveals that the data suggests Saturn's iconic rings stretch far beyond their seemingly razor-thin appearance when viewed through telescopes. Readers interested in landmark space missions and deep-space discoveries can explore more coverage at FSNews365 , which frequently reports on planetary science and spacecraft findings. Striking Compositional Similarities Found in High-Latitude Dust Cassini Records 1,690 Dust Spectra During its 20 orbits , C...