Physicists have proposed a way to extract the internal quantum states of electron wave packets by analyzing how those packets ...

For decades, quantum entanglement has been measured almost exclusively in isolated particles trapped in labs, far removed ...

The hope for quantum computers is that the devices will be able to solve complex tasks such as predicting how chemicals react or cracking encrypted text. One of the main reasons that the machines are ...

Neutron scattering is a powerful analytical technique that utilizes neutrons to probe the structure, dynamics, and properties of materials at the atomic and nanoscale level. It provides unique ...

Setup of the three high-resolution spectrometers in the A1 experimental hall, which were used to detect 6 H. Credit: Ryoko Kino, Josef Pochodzalla For the first time, a research team has successfully ...

Everything on the electromagnetic spectrum has some properties of both waves and particles, but it’s difficult to imagine a ...

Schematics of the all-optical nonlinear Compton scattering experiment showing laser-driven electron acceleration, electron-laser collision, and Compton scattering to produce gamma rays. In a ...

There has long been a mystery when calculating how an incoming light wave scatters off an object and becomes a modified, outgoing light wave. In particular, the time delay of the transition from one ...

RIKEN researchers have advanced spintronics technology by studying the dynamics of magnetic vortices, offering potential for more efficient low-energy devices. The study focuses on nanoscale magnetic ...

Please acknowledge the SIP core facility ( RRID: SCR_018986) in publications, on posters, or in talks if you use any instruments in the SIP core facility. Please include SIP's RRID (RRID: SCR_018986) ...

Proton probe: the MINERvA experiment at Fermilab has been used to study the structure of the proton using neutrinos. (Courtesy: Reidar Hahn/Fermilab) Following a bold suggestion from a postdoc ...