EVacuAted OptiCal Fibres for Ultimate UV-to-Infrared Light TransMission (VACUUM) ***ASSIGNED DOI https://doi.org/10.5258/SOTON/DD3354*** This is dataset for 'Tunable Lasers Phaselocked to Optical Frequency Comb' to be published on Journal of Lightwave Technology Dataset DOI: 10.5258/SOTON/D3354 Date that the file was created: 1 Jan, 2025 ------------------- GENERAL INFORMATION ------------------- ReadMe Author: Win Indra, Zitong Feng, Meng Ding, Josef Vojtěch and Radan Slavík Date of data collection: 5/5/2022 - 10/8/2024 Information about geographic location of data collection: University of Southampton, U.K. Related projects: EPSRC projects EP/P030181/1 and EP/W037440/1 -------------------------- SHARING/ACCESS INFORMATION -------------------------- Licenses/restrictions placed on the data, or limitations of reuse:Creative Commons Attribution. This dataset supports the publication: AUTHORS:Win Indra, Zitong Feng, Meng Ding, Josef Vojtěch and Radan Slavík TITLE:Tunable Lasers Phaselocked to Optical Frequency Comb JOURNAL:Journal of Lightwave Technology -------------------- DATA & FILE OVERVIEW -------------------- This dataset contains: Fig. 4. Spectrum on the used OFC with total power of 0.5 mW and per-comb powers of 1.1 nW at 1530 nm, 2.3 nW at 1550 nm, and 3.7 nW at 1565 nm. Fig. 5. Phase noise of beat signal between two tunable lasers with powers of 1 mW and 1-10 nW, respectively. Fig. 6. Phase noise of the beat signal between a tunable laser (power of 1 mW) and OFC with per-tone power of 1-10 nW at the wavelength of 1550 nm. Fig. 7. Phase noise of the beat signal between a tunable laser (power of 1 mW) and OFC with per-tone power of 1 nW at the wavelength of 1550 nm for free-running laser (blue), when phaselocked using one double-integrator (PI^2, blue), and using two double-integrators (PI^4, green). Measurement noise floor is also shown (grey, dashed). Fig. 8. Phase Noise of beat signal of locking tunable laser to the OFC at different wavelengths with relevant OFC power set to 1 nW. Fig. 9. Phase noise jitter calculated from the measured phase noise of OFC-locked tunable laser (with per-tone power of 1 nW) when locked using PI^2 and PI^4 feedback controller. Fig. 10. Frequency error of OFC-laser beat signal with one double-integrator (PI2) and two double-integrators (PI^4) using 1 s gate time, measured over 10 hours. Fig. 11. Allan deviation calculated from the frequency counter data when a tunable laser is locked to the OFC using two double-integrators (PI^4) and one double-integrator (PI^2), normalized to the laser carrier frequency (192 THz). Fig. 12. Fractional frequency instability of the beat signal at 1 s averaging times for various beat frequencies expected from our system and its comparison with the state-of-the art terahertz sources (adopted from [13]).