In new research appearing in Physical Review Letters, an international research team, including UC Davis physicists, has expanded the Fermi-Hubbard model, allowing for a more detailed exploration of materials and their properties. In the study, the researchers measured the equation of state for Ytterbium atoms in an optical lattice. Specifically, they used the fermionic isotope 173Yb, which is a metallic element with atoms that can adopt six possible states.

Glass artist Josiah McElheny, the winter spotlight artist in The California Studio, explored ideas — and campus — during a week with students and faculty in the UC Davis Department of Art and Art History.

A UC Davis theoretical physicist studying the quantum nature of matter and a mathematician investigating the complexity of large datasets are the recipients of grants totaling more than $1.2 million from the National Science Foundation’s Faculty Early Career Development Program.

Three faculty members from the College of Letters and Science are among UC Davis' newest class of Chancellor's Fellows, a title given to early career academics doing exemplary work.

Early in the movie 'Oppenheimer,' J. Robert Oppenheimer (Cillian Murphy) visits the Berkeley laboratory where Ernest Lawrence is building a particle accelerator to study nuclear physics. The scene reminded me that the giant magnets from one of those accelerators later came to UC Davis, forming the core of the cyclotron at the Crocker Nuclear Laboratory on campus. It is one of several links between Oppenheimer, the Manhattan Project and UC Davis.

A mathematician, a linguist, a chemist and a physicist are among this year’s cohort to receive Incentives for Large Grant Awards from the College of Letters and Science at UC Davis. The Incentives for Large Grant Awards program provides faculty with up to $80,000 in support over two years to pursue large grants over $1 million. “Large proposals require a significant investment of time and resources,” according to the Strategic Initiatives team behind the Incentives for Large Grant Awards program. “Often, our faculty are unable to pursue large grants because there is simply insufficient time to devote to proposal development and submission.” The Incentives for Large Grant Awards program aims to ease that difficulty.

How did the universe become so good at hiding quantum physics? In two new papers appearing in Physical Review Research, UC Davis and Los Alamos National Laboratory researchers introduce a new model to explain the phenomenon of decoherence, when a system’s behavior shifts from being explainable by quantum mechanics to being explainable by classical mechanics. The new model divorces the arrow of time from the go-to theoretical tool for understanding decoherence: the Caldeira-Leggett model.

Is it possible to predict earthquakes? For decades, earthquake researchers like Distinguished Professor John Rundle have explored various methods attempting to tackle this question. Rundle and his colleagues are exploring “nowcasting,” which uses methods inspired from the fields of finance, economics and meteorology to determine the earthquake potential of a region through time. In this video, Rundle discusses his interest in earthquake nowcasting and why this field of research is more important than ever.

A study using data from telescopes on Earth and in the sky resolves a problem plaguing astronomers working in the infrared and could help make better observations of the composition of the universe with the James Webb Space Telescope and other instruments. The work is published April 20 in Nature Astronomy.