Physics

In the realm of quantum technology, one concept stands out for its profound implications: quantum entanglement. This phenomenon, where particles become interconnected such that the state of one instantly influences the state of another, is essential for the advancement of quantum computing, simulation, and sensing. Recent developments from researchers at the Institute for Molecular Science

Recent advancements in quantum computing have gained significant momentum with the discovery of multiple Majorana zero modes (MZMs) within a single vortex of the superconducting topological crystalline insulator SnTe. This groundbreaking work, led by a collaborative research team from the Hong Kong University of Science and Technology (HKUST) and Shanghai Jiao Tong University (SJTU), begins

At the intersection of quantum physics and material science lies the fascinating concept of quantum states merging to create entirely new collective phases of matter. This phenomenon emerges when various atomic components interact under the principles of quantum mechanics, leading to the development of exotic states with unique properties. Recent research by a collaborative team

Moiré superlattices, formed by layering two-dimensional materials at a slight rotational angle, have emerged as a significant area of research in condensed matter physics. These intricate structures have not only captured the attention of physicists but also heralded a new era of understanding the fundamental nature of electrons. Recent predictions suggest that these superlattices can

Quantum mechanics is a frontier of science that continues to present a multitude of enigmas, not least of which is the intricate relationship between entanglement and interference, particularly in systems comprising more than two particles. Recent investigations led by a team of researchers, including Robert Keil and Tommaso Faleo from the Department of Experimental Physics,

In the ever-evolving realm of thermodynamics, heat engines have long been recognized as the backbone of energy conversion in contemporary society. Their ability to transform thermal energy into mechanical work underpins a vast array of technologies. With the rise of nanotechnology and quantum mechanics, researchers are diving deeper into the complexities of Quantum Heat Engines

Recent advancements in optical technology have paved the way for a paradigm shift in information processing. A collaborative effort by researchers from the University of Bayreuth’s Physics and Chemistry departments, alongside the University of Melbourne’s Physical Chemistry team, has achieved a significant milestone: the creation of optically switchable photonic units. This innovative technology allows for

Recent breakthroughs in the study of light at the molecular level have revealed astonishing potentials for communication and technology. Researchers at the University of Bonn have successfully demonstrated the ability to manipulate light particles, resulting in the formation of a unique entity dubbed a “super photon.” This advanced state of light, achieved by cooling a

In recent advancements in ultrafast imaging, researchers have made a substantial leap that could transform our understanding of both fundamental sciences and various applied fields. Conventional methods of imaging tiny particles generated from combustion and other dynamics have long posed challenges due to the rapid changes these particles undergo. A team led by scientists from

Recent advancements in nuclear physics, empowered by unparalleled computing power, have begun to shed light on one of the most enigmatic elements of the universe: calcium-48. Researchers at the Oak Ridge National Laboratory (ORNL) employed the world’s most potent supercomputer, Frontier, to delve into the magnetic properties of calcium-48’s atomic nucleus. Their groundbreaking findings, as

As humanity continues to advance in technology, our methods of measuring time have also evolved significantly, transitioning from sundials to atomic clocks. However, the potential development of a nuclear clock presents an intriguing possibility for achieving unprecedented precision in timekeeping. Researchers at JILA, a collaboration between the National Institute of Standards and Technology (NIST) and

As the world faces an urgent energy crisis exacerbated by climate change, innovative solutions for sustainable energy management are essential. Among these, passive radiative cooling stands out as a transformative technology capable of providing cooling without relying on traditional energy sources. This approach allows materials to emit heat directly into space, providing a path to

The recent study conducted by researchers at Sorbonne University’s Paris Institute of Nanoscience introduces a groundbreaking technique that encodes images within the quantum correlations of entangled photon pairs. This innovative approach not only presents unique possibilities in imaging but also showcases the transformative potential of quantum mechanics in practical applications such as cryptography and quantum

A cooperative effort among researchers from The University of Hong Kong, Texas Tech University, and the University of Michigan has led to a remarkable breakthrough in the domain of van der Waals (vdW) magnetic materials. This unique class of materials is renowned for its distinct electronic and magnetic properties, attracting significant interest for applications ranging

In a fascinating development at Stanford University, researchers have pioneered a technique that promises to redefine medical diagnostics by rendering biological tissues transparent to visible light. This innovative approach, which involves the application of a food-safe dye, has the potential to enhance the visibility of internal organs and systems, allowing for better diagnostics and treatment