X-rays uncover magnetic phenomena that are driven by interactions between the layers of a kagome ferromagnet. Our ...

With a new measurement imminent, the Courier explores the experimental results and theoretical calculations used to predict ...

There are many different types of lasers—almost as many as there are applications for the same—but what ties them all ...

In the quest for next-generation energy, sensing, and pigment technologies, semiconducting metal oxides like titanium dioxide ...

Though other explanations can’t be ruled out, CMS finds the toponium hypothesis to be sufficient to explain the observed ...

They crossed the first milestone in 2019 when they demonstrated Sycamore, a 54-qubit superconducting quantum processor. It ...

Individual EUV photons have a lot of energy, but there aren’t very many of them. Feature roughness depends on the interaction ...

Both weak and strong exciton-photon coupling ... crystal in an electron-nuclear spin system in the InGaAs semiconductor. Here, using periodic modulation, the authors reveal effects of ...

Scientists have successfully "frozen" light, demonstrating that it can exist as a supersolid—a rare state of matter combining solid-like structure with frictionless flow. Using quantum techniques on a ...

The electrical signals used for wireless communications, for example, can’t just be shoved into the fiber-optic ...

The researchers use a series of microwave pulses to add energy to a qubit, which then emits a photon. Carefully controlling ...