In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the ...

Researchers have found that a swirling water vortex can force opposing waves to form rotating lines of stillness across an ...

In the quirky, quantum world, particles can be affected by forces that they never directly encounter. A classic example is ...

Fig. 1 An internationally collaborated group, led by Ikerbasque Professor Konstantin Bliokh (upper-right) in DIPC Spain, Nanyang Assistant Professor Yijie Shen (mid-right) in NTU Singapore, and ...

Recently, the National Science Review published the study of Huaping Wang's group at Zhejiang University online. Inspired by electromagnetic metamaterials, the research team designed and fabricated a ...

BUFFALO, N.Y. — Last year, onlookers observed a startling site on China’s Qiantang River: waves forming a grid-like pattern. Dubbed the “matrix tide,” this complex wave pattern was caused by the river ...

Researchers from the Okinawa Institute of Science and Technology, working with colleagues in Norway and Chile, recreated the Aharonov–Bohm effect using water waves in a vortex tank, finding unexpected ...