The outbreak of the COVID-19 pandemic highlighted the urgent need for scientific research to combat infectious diseases. As people around the world sought refuge in their homes, scientists from various fields joined forces to contribute to the fight against the spread of infectious agents. One team of experts, consisting of atmospheric scientists, chemists, and infectious
Science
Time travel has long been a topic of fascination and speculation. While it remains a concept confined to the realms of science fiction, physicists at the University of Cambridge have made significant strides in simulating models of time travel using the principles of quantum entanglement. This groundbreaking research has shown that by manipulating the intrinsic
Modern technology is constantly seeking ways to improve performance and efficiency. In the field of artificial intelligence and data-heavy tasks, such as image classification and speech recognition, the demand for faster and more efficient solutions is ever-growing. Researchers at Huazhong University of Science and Technology in China have developed a groundbreaking optical chip that has
As scientists continue to explore the mysteries of outer space, they have stumbled upon an intriguing revelation – some asteroids have densities higher than any known elements on Earth. This suggests the presence of “ultradense” matter that is not yet understood or studied using conventional physics. Jan Rafelski and his team at the Department of
The radius of the proton has long been a subject of fascination and research among scientists. Theoretical physicists at Johannes Gutenberg University Mainz (JGU) have made significant progress in improving their calculations of the electric charge radius of the proton, while also providing stable predictions for the magnetic charge radius. Their findings, published in three
Semiconductors play a crucial role in modern technology, particularly in fields such as optoelectronics, telecommunications, and information processing. However, until recently, achieving bright, circularly polarized light, which offers immense potential in these applications, has proven to be extremely challenging. In a groundbreaking development, a research team led by Prof. Dr. Felix Deschler at Heidelberg University’s
When two lattices with distinct angles or periodicities come together, they conjure a moiré superlattice—a realm where astonishing phenomena like superconductivity and optical solitons spring to life. In this realm, the moiré flatband plays a crucial role in shaping advanced light-matter interactions. The ability to control flatbands is a pivotal superpower in moiré physics and
Condensed matter physicists have long been fascinated by the concept of fractionalization, which involves a collective state of electrons carrying a charge that is a fraction of the electron charge without the presence of a magnetic field. This phenomenon is not about splitting the electron into pieces but rather about a group of electrons behaving
The field of quantum condensed-matter physics continues to amaze and intrigue researchers around the world. One of the recent discoveries in this field that has captivated the attention of scientists is the superconducting diode effect. This fascinating phenomenon allows for dissipationless supercurrent to flow in only one direction, opening up new possibilities for superconducting circuits.
X-ray technology has revolutionized medical imaging and scientific research, providing valuable insights into the human body and various materials. Recent advancements in this field have led to brighter and more intense X-ray beams, allowing for imaging of intricate systems even under real-world conditions. However, these advancements require X-ray detector materials that can withstand high-energy X-rays,