Quantum Physics
Quantum Computing: The Breakthroughs
Quantum Computing and Non-Abelian Anyons
Quantum computing stands at the precipice of revolutionizing numerous sectors. In particular, researchers from Google Quantum AI have made a groundbreaking discovery in this field, the first-ever observation...
Quantum Physics
Unraveling the Quantum Link: Gluons, Black Holes, and Entropy
Quantum Link Remarkable Similarities Between Black Holes and Dense Gluon States
Physicists have recently discovered a striking parallel between the properties of massive black holes and the dense states of gluons, the...
Quantum Physics
Supersolids Go Two-Dimensional
Unveiling the Peculiar World of Supersolids
Think of a flawless diamond whose internal components move without any resistance, or an ice cube whose closely-arranged components slide smoothly. These scenarios might seem odd...
Quantum Physics
Pioneering Qubit Rewinding: A Universal Protocol for Uncontrolled Settings
Abstract
Researchers at the Institute for Quantum Optics and Quantum Information (IQOQI) in Vienna have developed a groundbreaking universal protocol that enables the rewinding of qubits in uncontrolled settings with a high...
Quantum Physics
Physicists Recreate Famous Double-Slit Experiment in the Fourth Dimension
Time Slits Experiment: Discovering a New Interference Pattern
The double-slit experiment conducted by the English scientist Thomas Young over 200 years ago is one of the most famous experiments in the history...
Quantum Physics
The Challenges and Potential Solutions to Unifying the Four Fundamental Forces of Nature
Introduction
Quantum mechanics is a fundamental theory that describes the behavior of matter and energy at the microscopic level. It has been successful in explaining many phenomena that classical mechanics cannot account...