Optomechanical systems skilfully exploit the interaction between light and mechanical motion to enable precise control over both optical and mechanical degrees of freedom. Central to these systems is ...

(Nanowerk News) Researchers at Chalmers University of Technology in Sweden and at the University of Magdeburg in Germany have developed a novel type of nanomechanical resonator that combines two ...

Researchers at the Swiss Federal Institute of Technology (ETH) in Zurich have developed the first-ever fully functional ...

Scientists have demonstrated the theory behind how a cavity optomechanical system induces OMIT and reduces the speed of light. Scientists have demonstrated the theory behind how a cavity ...

Vibrational modes in mechanical resonators provide a promising candidate to interface and manipulate classical and quantum information. The observation of coherent dynamics between distant mechanical ...

A research team led by Prof. Zou Xudong from the Aerospace Information Research Institute of the Chinese Academy of Sciences ...

Quantum information (QI) processing may be the next game changer in the evolution of technology, by providing unprecedented computational capabilities, security and detection sensitivities. Qubits, ...

Meet the team Left to right are Yu Yang, Matteo Fadel, Yiwen Chu and Igor Kladarić. They were the main researchers at ETH Zurich who created the groundbreaking mechanical qubit. (Courtesy: Yu Yang/ETH ...

Resonators are devices that exhibit resonance, a phenomenon where a system oscillates with greater amplitude at specific frequencies. In the context of nanotechnology, resonators are nanoscale ...

A team of researchers from the University of Florida, led by Dr. Philip Feng, in collaboration with Prof. Steven Shaw in Florida Institute of Technology, has now demonstrated extremely high-efficient ...

The image shows an illustration of a triangline nanomechanical resonator realized in a piezoelectric material. The central part of the resonator is shaped like a triangle that moves up and down and at ...