Newswise: Physics Sponsored By AIP

New Method Could Explore Gluon Saturation at the Future Electron-Ion Collider

Exploring the gluon saturation in large nuclei is one of the major goals of the future Electron-Ion Collider. New research proposes a novel method to probe the onset of gluon saturation by measuring the nucleon energy-energy correlation in deep inelastic scattering. This result leads to a comprehensive approach to study the universal behavior of gluon saturation.

AIP Appoints Alejandro de la Puente as Director of the Society of Physics Students and AIP Student Engagement Officer

AIP is delighted to announce the appointment of Alejandro de la Puente as director of the Society of Physics Students and AIP's first Student Engagement Officer.

Theory Thesis Wins APS Dissertation Award

Zhite Yu has been awarded the 2024 J.J. and Noriko Sakurai Dissertation Award in Theoretical Particle Physics. The award was presented to Yu at the APS April Meeting in Sacramento, where he also delivered a talk about his work.

Physicists explain--and eliminate--unknown force dragging against water droplets on superhydrophobic surfaces

Aalto University researchers adapt a novel force measurement technique to uncover the previously unidentified physics at play at the thin air-film gap between water droplets and superhydrophobic surfaces.

Machine learning could help reveal undiscovered particles within data from the Large Hadron Collider

Scientists recently used a machine learning approach called anomaly detection to analyze large volumes of data from the Large Hadron Collider at CERN. The method has never before been applied to data from a collider experiment.

Relativistic Heavy Ion Collider Begins Run 24

Today marks the startup of the 24th run of the Relativistic Heavy Ion Collider (RHIC), a U.S. Department of Energy (DOE) Office of Science user facility for nuclear physics research at DOE's Brookhaven National Laboratory.

Superconducting Electronics Show Promise for Future Collider Experiments

When superconductors encounter too much current, they can become resistive. Researchers can design microscopic electronic components that use this effect to create a switch, like a transistor. The resulting nanowire superconducting switching devices (called nano-cryotrons, or nTrons) show promise for future superconducting electronics or particle detectors.

ASA Invites Media to Acoustics Meeting in Ottawa, May 13-17

The Acoustical Society of America and the Canadian Acoustical Association are co-hosting a joint meeting May 13-17 at the Shaw Centre/Westin Ottawa Hotel.

Stony Brook University Cosmologist Receives Fulbright Scholar Award

The US Department of State and the Fulbright Foreign Scholarship Board have selected Stony Brook University Professor Kenneth Lanzetta, PhD, in the Department of Physics and Astronomy, as a Fulbright US Scholar for 2024-2025.

Quantum Systems Accelerator Leads First "You Belong in Quantum" Webinar

The Quantum Systems Accelerator (QSA), recently launched the "You Belong in Quantum Series!" in collaboration with the four other U.S. Department of Energy National QIS Research Centers. The initiative's January 2024 webinar featured distinguished leaders in the field.

Cosmic ray detectors, built by Utah refugee teens, installed on Refugee Services Center

The detectors, which measure echoes of cosmic particles bombarding Earth's atmosphere, were built by participants in a program called "Investigating the Development of STEM-Positive Identities of Refugee Teens in a Physics Out of School Time Experience."

Joao Barata Awarded CERN Fellowship

Joao Barata, a physicist in the Nuclear Theory Group at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory, has received a fellowship at CERN, the European Organization for Nuclear Research. In October 2024, Barata will begin the three-year-long appointment in CERN's Department of Theoretical Physics.

New method of measuring qubits promises ease of scalability in a microscopic package

The path to quantum supremacy is made challenging by the issues associated with scaling up the number of qubits. One key problem is the way that qubits are measured.

New Technique Lets Scientists Create Resistance-Free Electron Channels

Researchers have taken the first atomic-resolution images and demonstrated electrical control of a chiral interface state - an exotic quantum phenomenon that could help researchers advance quantum computing and energy-efficient electronics.

Problems with 3 Body Problem? Experts discuss physics, mathematics behind hit Netflix show

Adapted from the novels by Cixin Liu, the science fiction television series 3 Body Problem, the latest from the creators of HBO's Game of Thrones, has become the most watched show on Netflix since its debut last month.

DOE Thomas Jefferson National Accelerator Facility Management and Operating Contract Competition

The U.S. Department of Energy (DOE) has an ongoing competition for the management and operating contract for the Thomas Jefferson National Accelerator Facility (TJNAF).

CSUF Scientists Contribute to Mysterious Gravitational-Wave Signal From Neutron Star-Black Hole Cosmic Collision

Cal State Fullerton physicists are on the forefront of a new discovery of gravitational waves from two compact cosmic objects not seen by scientists before.

New Calculations Solve an Alpha Particle Physics Puzzle

In early 2023, scientists published a new measurement testing the strong nuclear force. The experiment involved the way an alpha particle becomes excited. The study suggested a puzzle that could not be solved with existing theoretical methods.

First Results from DESI Make the Most Precise Measurement of Our Expanding Universe

Researchers have used the Dark Energy Spectroscopic Instrument to make the largest 3D map of our universe and world-leading measurements of dark energy, the mysterious cause of its accelerating expansion

High-performance terahertz modulators induced by substrate field in Te-based all-2D heterojunctions

The emerging mono-elemental tellurium nanofilms with unique helical chain structure have been introduced as a new class of optically controlled terahertz modulators to successfully promote the device performances to the optimal levels among the existing all two-dimensional broadband modulators.

Chris Anderson combining materials science, physics and electrical engineering to advance quantum technologies