University of Illinois researcher Kyle Smith, along with doctoral students Md Habibur Rahman and Vu Do, master’s student Colby Warden, and recent graduate Irwin Loud IV (MSME 2023), have published their new manifold design theory (patent pending) in Physics of Fluids.
An international research team around Marcus Sperling, a researcher at the Faculty of Physics, University of Vienna, has sparked interest in the scientific community with pioneering results in quantum physics: In their current study, the researchers reinterpret the Higgs mechanism, which gives elementary particles mass and triggers phase transitions, using the concept of "magnetic quivers."
A group of engineers at Argonne National Laboratory is uniquely equipped to design, model and install experimental systems that enable pioneering scientific research.
Two researchers at The University of Alabama in Huntsville (UAH) have published a paper that demonstrates for the first time that a subluminal warp drive is possible within the bounds of known physics without the need to employ exotic unknown forms of matter or energy, while also advancing our understanding of gravity. UAH alumnus Dr.
Physicist David DeMille and chemist Mercouri Kanatzidis were elected to the National Academy of Sciences for their outstanding scientific achievements.
Jefferson Lab Staff Scientist Holly Szumila-Vance earns the 2024 Guido Altarelli Award for outstanding contributions to experimental physics.
PPPL scientists have developed a new theoretical model about the edge of a plasma, which can become unstable and potentially damage a fusion reactor. The model refines ideas about a critical obstacle on the path to harnessing clean energy from this fourth state of matter.
Dive into the world of advanced research and intellectual exchange as Professor Haroche shares his inspiring journey and groundbreaking contributions in the field of quantum physics and optics. From his early fascination with physics to his pioneering work in "Cavity Quantum Electrodynamics," Professor Haroche's expertise has paved the way for exciting possibilities in quantum information science.
InterQnet is a three-year initiative to demonstrate that quantum computers separated by large distances and even based on different hardware architectures can work in tandem.
The intricate nature of light, characterized by its intensity, polarization, and spectrum composition, holds profound importance across a range of scientific and technological disciplines. From enhancing optical communications to enabling precise chemical and biological characterization, a comprehensive understanding of light's properties is indispensable.
Researchers at the Karlsruhe Institute of Technology (KIT) introduce a polymer-based material with unique properties in the latest issue of the journal Nature Communications. This material allows sunlight to enter, maintains a more comfortable indoor climate without additional energy, and cleans itself like a lotus leaf. The new development could replace glass components in walls and roofs in the future
Scientists have made discoveries about light particles known as photons that could aid the quest for fusion energy.
In this lecture, Professor Enge Wang, the HKIAS Senior Fellow and University Chair Professor of Physics at Peking University, will explore the fascinating advancements in condensed matter physics.
A new paper in Physical Review Letters explores the effects of memory in quantum systems and ultimately offers a novel solution to decoherence, one of the primary problems facing quantum technologies.
In this study, four drying methods including hot air drying (HAD), catalytic infrared drying (CIRD), electric infrared drying (EIRD) and electric oven drying (EOD) were used to prepare dried chicken breast. The study systematically compared the drying efficiencies of different methods and their effects on physico-chemical properties, pet food applications, energy consumption, and cost.
In a study published in Nature Materials, scientists from the University of California, Irvine describe a new method to make very thin crystals of the element bismuth – a process that may aid the manufacturing of cheap flexible electronics an everyday reality.
Scientists have the first direct evidence that the powerful magnetic fields created in off-center collisions of atomic nuclei induce an electric current in “deconfined” nuclear matter. The study used measurements of how charged particles are deflected when they emerge from the collisions. The study provides proof that the magnetic fields exist and offers a new way to measure electrical conductivity in quark-gluon plasma.
Argonne has awarded five named postdoctoral fellowships to researchers in fields including particle physics, materials science, quantum, artificial intelligence, energy storage, and environmental science.
STScI assistant astronomer John Wu has been named 2024 Outstanding Young Scientist by the Maryland Academy of Sciences. Using machine-learning methods that he developed, he has pioneered the discovery of low-mass galaxy candidates and contributed to theoretical models of galaxies, dark matter halos, and their cosmic surroundings.
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