The race to build a practical quantum computer is one of the most thrilling technological endeavors of our time. While headlines often focus on the qubits themselves—be they superconducting circuits, trapped ions, or neutral atoms—there is a less glamorous but equally critical component working behind the scenes: the laser. And not just any laser. The advancement of quantum computing is intrinsically linked to the development of ultra-stable, narrow linewidth lasers. They are providing the preci... moreThe race to build a practical quantum computer is one of the most thrilling technological endeavors of our time. While headlines often focus on the qubits themselves—be they superconducting circuits, trapped ions, or neutral atoms—there is a less glamorous but equally critical component working behind the scenes: the laser. And not just any laser. The advancement of quantum computing is intrinsically linked to the development of ultra-stable, narrow linewidth lasers. They are providing the precise control needed to transform quantum theory into a functional machine. https://www.cq-smart.com/narrow-linewidth-laser
