Scientists have discovered that polyploid giant cancer cells, which are monstrously oversized and contain multiple nuclei, may be responsible for disease recurrence after cancer therapy. Researchers…
In solids, the quantum metric captures the quantum coherence of the electron wavefunctions. Recent experiments demonstrate the detection and manipulation of the quantum metric in a noncollinear topological antiferromagnet at room temperature.
The AI Factory is revolutionizing the industry by creating a new commodity of extraordinary value through the development of NIMS, which has the ability to generate language models, pre-trained models, and digital humans for various applications Questions to inspire discussion What is the impact of ChatGPT on generative AI?
The results are “fantastic”, says Yan. They will “really inspire and stimulate the rest of the cold-molecules community”
Exotic phases
Molecular Bose–Einstein condensates could be used in myriad ways. One possibility, says Valtolina, is to create exotic supersolid phases, in which a rigid material flows without resistance. So far this has been achieved only in atomic gases with magnetic interactions — it could now be done in polar molecules, whose interactions are “way stronger”, he says.
Cities across the world should invest holistically to meet today’s changing mobility needs and create urban landscapes more accessible and sustainable.
They say that one can miss the forest for the trees. But it’s often worth taking a closer look at the trees to make sense of the dense, brambly whole. That’s what a Stanford University group did to tackle a thorny quantum-information problem in diamond.
A simple concept of decay and fission of “magnetic quivers” helps to clarify complex quantum physics and mathematical structures.
In the dynamic realm of optical physics, researchers are continually pushing the boundaries of how light can be manipulated and harnessed for practical applications.
In support of the development of large-scale superconducting quantum computers, researchers with the National Institute of Advanced Industrial Science and Technology (AIST), one of the largest public research organizations in Japan, in collaboration with Yokohama National University, Tohoku University, and NEC Corporation, proposed and successfully demonstrated a superconducting circuit that can control many qubits at low temperature.