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Japanese Physicists Use Light to Break Newton's Third Law  —  A Leap Toward Non-Reciprocal Quantum Materials A Groundbreaking Twist  —  Light-Induced Violation of Newton's Third Law In a discovery that challenges one of physics' most established principles, researchers in Japan have demonstrated how light can induce non-reciprocal interactions in solids — effectively breaking Newton's third law within a controlled environment. By findings, published on 18 September 2025 in Nature Communications , mark a revolutionary step in non-equilibrium physics , opening pathways to light-driven quantum materials and energy-efficient spintronic technologies . Related reading: Light-Induced Magnetism  —  The Future of Quantum Devices From Action and Reaction to Chase and Run Under ordinary conditions, all physical systems obey the law of action and reaction, maintaining symmetry through the principle of free energy minimization. However, in non-equilibrium systems — s...

Palomar Observatory Photos Reveal Mysterious Sky Flashes Linked to Nuclear Tests and UAPs By FSNews365 Team Forgotten Sky Plates Uncover a Hidden Cosmic Mystery In a discovery that could reshape how we interpret unexplained aerial phenomena, scientists analyzing archival sky photographs from the Palomar Observatory have found mysterious bright flashes recorded between 1949 and 1957 — long before the space age began. The research, conducted under the Vanishing and Appearing Sources during a Century of Observations (VASCO) project, involved digitizing decades-old glass plates to detect "transients" —brief, star-like object that appear in one frame and disappear in the next. These transients are exceptionally rare and puzzling. They can't easily be attributed to asteroids, camera defects or cosmic rays and now, researchers suggest they may share a surprising link with nuclear weapons testing and unidentified anomalous phenomena (UAPs) . Read more cosmic discoveries on FSN...

Can Gravity Be Quantum? New Study Challenge Feynman's Iconic Experiment Intro The century-long struggle to unite gravity and quantum theory — two pillars of modern physics — has just taken a surprising turn. A new Nature study questions one of the most promising experimental paths toward quantum gravity , arguing that classical gravity could also mimic the quantum entanglement effect once thought unique to the quantum world. For more on physics breakthroughs, explore FSNews365 Science & Space for in-depth reports. The Century-Old Quest for a Unified Theory Physicist have long dreamed of unifying the four fundamental forces — gravity , electromagnetism, the strong force and the weak force — under one grand quantum framework. While electromagnetism and the nuclear forces fit neatly within quantum mechanics, gravity stubbornly resists integration. The key obstacle lies in scale: quantum mechanics dominates the microscopic realm of particles , whereas gravity govern the macrosco...

How Dark Matter Could Shape the Fate of Exploding Stars—New Study Reveals Hidden Forces Behind Electron-Capture Supernovae The Rare Stellar Explosions That Birth the Lightest Neutron Stars Electron-capture supernovae (ECSNe) are among the universe's most mysterious and least understood explosions. These events occur when stars, initially weighing about eight to ten times the mass of our Sun , develop unstable oxygen-neon-magnesium (O-Ne-Mg) cores. When electron inside the star's core are captured by neon and magnesium nuclei , internal pressure suddenly drops. The core collapses under its own gravity, triggering a supernova explosion and forming a neutron star — a city-sized object composed almost entirely of neutrons. Recent observations, such as Supernova 2018zd (SN2018zd) , have confirmed that these rare events truly exist, providing vital clues about stellar evolution and the delicate balance between gravity and nuclear forces. For deeper insights into the origins of neut...

Chang'e-6 Lunar Dust Uncovers Ancient Meteorite Fragments That Could Rewrite the Story of Life's Origins (FSNews365 Science | Space Research | October 2025) A Groundbreaking Discovery from the Moon's Hidden Face Lunar Dust retrieved by China's Chang'e-6 mission has unveiled rare meteorite remnants that could transform our understanding of how water and life's essential elements formed in the solar system . In June 2024 , the Chang'e-6 spacecraft successfully brought back the first-ever samples from the Moon's far side   —  the hemisphere forever hidden from Earth. According to a new study published in the  Proceeding of the National Academy of Sciences (PNAS) study, these materials suggest that water-rich asteroids — once thought to be rare may have supplied far more substance to the early Earth and Moon than previously believed. (Learn more about lunar exploration milestones on FSNews365 .) Why the Far Side of the Moon Holds the Key to Cosmic History...

Little Red Dots: James Webb Telescope Reveals Ancient Seeds of Galaxies and Black Holes Webb's Early Glimpse into the Birth of Galaxies When the James Webb Space Telescope (JWST) commenced operations, one of its first missions focused on studying galaxies formed in the infancy of the universe. By December 2022, the telescope detected several mysterious "little red dots" (LRDs) , sparking curiosity about their true nature. Although most researchers now believe these compact entities are ancient galaxies, their composition — and the reason for their striking redness — remains uncertain. According to one theory, known as the "stellar-only" hypothesis , the colour results from dense concentrations of stars and cosmic dust. This suggests that these objects may resemble the " dusty galaxies " seen in the present-day universe. Conversely, the "MBH and galaxy" theory argues that LRDs represent early forms of active galactic nuclei (AGNs) , which p...