Quantum ground states are the states at which quantum systems have the minimum possible energy. Quantum computers are increasingly being used to analyze the ground states of interesting systems, which ...

November 22 marks the 150th anniversary of Dmitri Mendeleev claiming that the element discovered by Paul-Émile Lecoq de ...

At the Department of Applied Physics, our pioneering research in physical sciences creates important industrial applications that hold great technological potential. Our research focuses on Materials ...

Our research focuses on Materials physics, Quantum technology, Soft & living matter, and Advanced energy solutions. Topics extend from fundamental research to important applications. We educate future ...

以晶体硅为代表的第一代太阳电池，其效率已接近理论极限，提效空间有限;第二代太阳电池 ...

Researchers from the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, and Johns Hopkins University in Baltimore have achieved a breakthrough in quantum noise characterization in ...

The method allows for the spatially resolved observation of transport processes in semiconductor devices.

Continuously replenishing pockets of gas trapped within microscale textures allows materials to avoid contact with fluids when submerged.

The method allows researchers to represent a quantum system as a ladder, with each rung corresponding to a discrete state.

"Understanding the physical and dynamical origin of regional climate extremes remains a major challenge in our effort to anticipate the occurrences and mitigate the adverse impacts of these extremes," ...

Abstract: The unique challenges posed by the space environment, characterized by extreme conditions and limited accessibility, raise the need for robust and reliable techniques to identify and prevent ...