Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog – Page 1,053

Get the latest international news and world events from around the world.

Log in for authorized contributors

Plasma propulsion system could help remove space debris without contact

Space has a trash problem, with defunct satellites, rockets, and smaller broken bits orbiting Earth at high speeds. The amount of space junk is only increasing, raising the risk of collision with active satellites and spacecraft, according to Kazunori Takahashi, associate professor in the Graduate School of Engineering at Tohoku University in Japan. Takahashi may have a solution, though.

“Owing to their uncontrolled motion and velocity exceeding that of bullets, orbiting around Earth pose a serious threat by significant increase in the potential risk of collisions with satellites that support sustainable human activity in space,” Takahashi said.

“Most current space debris removal methods are direct-contact approaches and carry the risk of becoming entangled in the uncontrolled motion of debris. More recent work has focused on using a to decelerate the debris, forcing it out of orbit.”

Decades-Old Quantum Puzzle Solved: Graphene Electrons Violate Fundamental Law of Physics

Electrons in graphene can act like a perfect fluid, defying established physical laws. This finding advances both fundamental science and potential quantum technologies.

For decades, quantum physicists have wrestled with a fundamental question: can electrons flow like a flawless, resistance-free liquid governed by a universal quantum constant? Detecting this unusual state has proven nearly impossible in most materials, since atomic defects, impurities, and structural imperfections disrupt the effect.

Detecting quantum fluids in graphene.

World First: Physicists Created a Time Crystal That We Can Actually See

Physicists have just made a new breakthrough in the enigmatic realm of time crystals.

For the first time, a time crystal has been built that can be directly seen by human eyes, rippling in an array of neon-hued stripes. The material’s construction could open up a whole new world of technological possibilities, including new anti-counterfeiting measures, random number generators, two-dimensional barcodes, and optical devices.

“They can be observed directly under a microscope and even, under special conditions, by the naked eye,” says physicist Hanqing Zhao of the University of Colorado Boulder.

/* */