Nonreciprocal Light Speed Control Achieved Using Cavity Magnonics Device

Nonreciprocal light speed control achieved using cavity magnonics device

The reliable manipulation of the speed at which light travels through objects could have valuable implications for the development of various advanced technologies, including high-speed communication systems and quantum information processing devices. Conventional methods for manipulating the speed of light, such as techniques leveraging so-called electromagnetically induced transparency (EIT) effects, work by utilizing quantum interference effe…

Oxford University research brings large-scale quantum computing step closer

Materials needed for large-scale, fault-tolerant quantum computing could be found using a new technique developed by researchers at Oxford…

Nonreciprocal light speed control achieved using cavity magnonics device - Science Tech Updates

The reliable manipulation of the speed at which light travels through objects could have valuable implications for the development of various advanced technologies, including high-speed communication systems and quantum information processing devices. Conventional methods for manipulating the speed of light, such as techniques leveraging so-called electromagnetically induced transparency (EIT) effects, work by utilizing quantum interference […] …