Researchers at Harvard University have developed a method to change a cellular material’s fundamental topology at the microscale.
Qubits offer a fast and highly reliable way to solve one of the great mysteries in physics.
The team confirmed that the original 1998 findings were correct, which means there is more to the physics surrounding the muon than previously known.
The new findings could help further understand how living tissue reacts to radiation exposure.
Florida State U researchers have discovered a novel way to improve the performance of electrical wires used as high-temperature superconductors.
New results from a massive experiment double down on indicating undiscovered influences on particles called muons.
The most potent antibodies that neutralized the virus were taken from individuals who had recovered from tick-born encephalitis.
Kevin Giovanetti and his students contributed to designing, prototyping and building a power management system as part of the Muon g-2 experiment.
A new piece of software makes it easier to study the behavior of electrons in materials—even materials that have been predicted but do not yet exist.
Research is a significant step toward the goal of creating ultrathin flexible materials that self-organize & respond immediately to mechanical force.