Researchers have achieved an important step forward in quantum computing by developing a device so small that it is almost 100 times thinner than a human hair. The advance, reported in the journal Nature Communications, centers on a new type of optical phase modulator designed to precisely control lasers. This capability is critical for future quantum computers, which will rely on thousands or even millions of qubits—the basic units of quantum information—to perform complex calculations. A key part of the achievement is how the devices are made. Instead of relying on specialized, hand-built components, the researchers used scalable manufacturing methods similar to those behind the processors found in computers, phones, vehicles, and home appliances—virtually everything powered by electricity (even toasters). The work was led by Jake Freedman, an incoming PhD student in the Department of Electrical, Computer and Energy Engineering at the University of Colorado at Boulder, alongside Matt Eichenfield, a professor and the Karl Gustafson Endowed Chair in Quantum Engineering.

Full research : A new chip-scale device offers unprecedented control over laser frequencies, a key ingredient for large-scale quantum computing.