Quantum Computing
Dual-reference approach for de-drifting an ultra-low-expansion cavity-stabilized laser
May 6, 2024| Posted in Application Notes| 3291
As atomic quantum computing and sensing demand higher operational fidelities, precise lasers are essential, maintaining fractional linewidth and frequency instability below a few parts in 100 trillion (~5×10-14). Ultra-low-expansion (ULE) cavity-stabilized lasers meet linewidth requirements but drift over time affects frequency stability. Traditional reliance on computing/sensing atoms for reference leads to downtime. We propose a dual-reference approach, where cavity-stabilized lasers sync with Vescent’s acetylene optical clock (LTS), reducing reliance on atomic corrections.
Scott Davis, Vescent CEO to be panelist at Inside Quantum Technology in San Diego
Scott Davis, Vescent CEO will be a panelist on Quantum Computing at the Inside Quantum Technology Meeting in San Diego on Tuesday 10 May, 2022 at 10:45 am PDT.