Good vibrations: MSU physicists help bolster quantum computing

trueCollege of Natural Science,Physics & Astronomy07/12/2023Good vibrations: MSU physicists help bolster quantum computing

When quantum systems, like those used in quantum computers, operate in the real world, they can lose information to mechanical vibrations. New research led by MSU, however, shows that a better understanding of the coupling between the quantum system and these vibrations can be used to mitigate loss. The research, published in the journal Nature Communications, could help improve the design of quantum computers that companies such as IBM and Google are currently developing.

Qubits are the basic units of information in quantum computers, and they can be easily lost due to vibrations from the environment.
Researchers at Michigan State University have found that by understanding how vibrations couple with quantum systems, they can be used to create and stabilize certain types of quantum states.
MSU researchers' findings could help to reduce these losses and make quantum computers more reliable.

Matt Davenport

This graphic shows an abstraction of vibrational ripples interacting with a qubit, represented as a sphere.

This graphic shows an abstraction of vibrational ripples.

Qubitsmechanical vibrationsphysicsquantum computing