Caltech scientists developed a hybrid quantum memory that stores qubit states 30 times longer by converting them into sound waves. The method, using mechanical oscillators at gigahertz frequencies, reduces energy loss and shows scalability potential. Published in Nature Physics, the breakthrough marks a step toward practical, long-term storage for superconducting quan...
Caltech scientists developed a hybrid quantum memory that stores qubit states 30 times longer by converting them into sound waves. The method, using mechanical oscillators at gigahertz frequencies, reduces energy loss and shows scalability potential. Published in Nature Physics, the breakthrough marks a step toward practical, long-term storage for superconducting quan…