Breaking Physics: Latest Discoveries & Research
Scientists have devised an ingenious method to store DNA, the blueprint of life, in an amber-like material at room temperature, drawing inspiration from the iconic preservation method seen in Jurassic Park. This innovative approach, dubbed T-REX, promises a more accessible and efficient way to safeguard genetic data and other valuable information for generations to come.
Explore how atomic force microscopy unveils ice’s slippery surface secrets, linking physics to everyday phenomena.
Discover goldene, a revolutionary ultrathin gold sheet set to transform materials science and technology.
Explore the cutting-edge thermal cloak fabric that naturally regulates temperatures, saving energy and reducing environmental impact.
Discover how mycelium-based leather repairs itself, ushering in sustainable fashion with ecological benefits.
Discover how scientists used quantum entanglement to measure Earth’s rotation, bridging quantum physics and gravity.
Dive into physicist Jonathan Oppenheim’s theory challenging quantum gravity, exploring its controversial implications for physics.
As quantum computing advances, the very fabric of digital security is at stake. Explore how scientists are racing to fortify our defenses against this imminent threat.
Witness the groundbreaking attomicroscope, capturing electron motion at unimaginable attosecond speeds. A quantum leap for physics, chemistry, and medicine.
Discover the surprising science behind paper cuts, from the optimal paper thickness to the influence of slicing angles. Explore the innovative Papermachete tool and the future of paper cut research.
Scientists push the boundaries of quantum mechanics with groundbreaking insights into neutrino wave packets.
Scientists propose creating tauonium atoms, composed of heavy tau leptons and their antimatter counterparts, through advanced collider experiments.
Explore the revelation of oxygen-28’s fleeting existence and its profound implications for nuclear physics, triggering new theoretical inquiries into the strong nuclear force.
Discover the unprecedented precision in muon magnetism measurement and the perplexing challenges it poses to theoretical physics, potentially reshaping our understanding of the subatomic world.
Delve into the secrets of neutrinos, elusive particles crucial to understanding our universe, in “Ghost Particle” by Alan Chodos and James Riordon.
Delve into the depths of particle physics as scientists unveil the unprecedented precision of electron magnetism, validating the robustness of the standard model and hinting at future scientific revelations.
