Litcius/Paper detail

Femtosecond Frequency Combs with Few‐kHz Passive Stability over an Ultrabroadband Spectral Range

Sarah R. Hutter, Ali Seer, Tilman König, Robert Herda, Daniel Hertzsch, Hannes Kempf, Rafał Wilk, Alfred Leitenstorfer

2023Laser & Photonics Review18 citationsDOIOpen Access PDF

Abstract

Abstract Femtosecond frequency combs are among the most precise measurement tools in existence. They have applications ranging from high‐precision spectroscopy and metrology to time‐domain quantum physics. Maximizing the passive stability of these instruments is essential to achieve their full potential in fundamental science and high‐tech industry. However, the noise mechanisms across the entire operating space of these devices have not been fully characterized. Here the noise properties of fiber‐based frequency combs are studied as a function of intracavity dispersion, pump power, and repetition rate. Distinct minima are discovered in this parameter space where the free‐running linewidth of the carrier‐envelope offset (CEO) frequency f CEO drops below 1 kHz. The individual comb lines are analyzed spread over a wide spectral range producing a complete understanding of the particular contributions to the phase noise and their interplay. Exploiting these findings, combs featuring sharp teeth at specific frequency positions and over the entire spectrum from f CEO to 300 THz are demonstrated. The ultrabroadband stability offered by these compact systems provides a new level of quality for front‐end measurement tasks in both time and frequency domains.

Topics & Concepts

Phase noiseFrequency combFemtosecondMetrologyLaser linewidthOptics500 kHzPhysicsTerahertz radiationEnvelope (radar)RangingLaserOptoelectronicsComputer scienceTelecommunicationsRadarAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and ApplicationsPhotonic Crystal and Fiber Optics