The dataset contains results of research regarding stabilization of carrier-envelope frequency offset with electro-optic modulator in mode-locked solid-state laser. This data is basis to generate figures for article "Direct electro-optic phase control for carrier-envelope offset frequency stabilization in solid-state lasers"
Authors: Karolina Suliga, Jarosław Sotor, Maciej Kowalczyk
Funding: Polish National Agency for Academic Exchange (BPN/PPO/2022/1/00028/U/00001); National Science Centre (2023/02/1/ST7/00006), Max Planck Society (Max Planck Partner Group Programme), Foundation for Polish Science (FENG.02.02-IP.05-0069/23)
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Fig2a: Laser spectra directly from oscillator and after spectral broadening. Wavelength data is in [nm], normalized intensity in [a.u.]
Fig2b: RF spectrum from f-to-2f interferometer, of nonstabilized fceo. Frequency data is in [Hz], power in [dB]
Fig3a: Transfer function of modulation pump diode and the mode-locked Cr:ZnS laser response to pump modulation.Frequency data is in [Hz], amplitude in [dB], phase in degrees.
Fig3b: Transfer function of EOM amplifier M500. Frequency data is in [Hz], amplitude in [dB], phase in degrees.
Fig3c: Transfer function of Cr:ZnS laser response to 3-mm long EOM modulation. Frequency data is in [Hz], amplitude in [dB], phase in degrees.
Fig3d: Transfer function of Cr:ZnS laser response to 6-mm long EOM modulation. Frequency data is in [Hz], amplitude in [dB], phase in degrees.
Fig4: Radio-frequency power spectrum for fceo ± frep beat-notes locked to frep for EOM modulation and pump modulation . Frequency data is in [Hz], power in [dB]
Fig5: Phase noise power spectral density and integrated phase noise measured for fceo stabilization. Frequency data is in [Hz], PSD in [rad^2/Hz], Integrated phase noise in [mrad].
