Date: 26/02/16 Written by: Joonyoung Kim (OptoElectronics Research Centre, University of Southampton) Uploaded Archive (ZIP) include 7 images and 4 numerical data files which can be open using Origin 1. Images - Fig1.tif: (Fig. 1 in article) Scenario of wavelength conversion based on OptoComb and optical injection phase locked loop for optical frequency dissemination applications. - Fig2.tif: (Fig. 2 in article) Schematic drawing of our experimental setup for characterization of the wavelength converter using a carrier envelope offset stabilized optical frequency comb. - Fig3.tif: (Fig. 3 in article) Measured optical spectra of Orbits laser output, OptoComb output, and wavelength converted light when the OptoComb was driven with 25 GHz signal generated by the RF synthesizer. - Fig4.tif: (Fig. 4 in article) Measured single sideband phase noise for various comb tones of the OptoComb using Erbium doped fiber amplifiers and SSB phase noise of the wavelength converter using optical injection phase locked loop. - Fig5.tif: (Fig. 5 in article) Measured single sideband phase noise of 1-THz wavelength converted light using the OptoComb and optical injection phase locked loop for various OptoComb temperatures. - Fig6.tif: (Fig. 6 in article) Measured frequency instability of the wavelength converter using the microwave signal of the RF synthesizer (black squares) and RF-signal detected from the carrier envelope offset stabilized optical frequency comb (red circles) - Fig7.tif: (Fig. 7 in article) Bi-directional implementation of wavelength conversion for optical frequency dissemination applications. 2. Data (please use Origin to open this) - Fig3_opt_spectrum.opj: Data of optical spectra in Fig. 3. - Fig4_phase_noise.opj: Data of measured phase noise in Fig. 4. - Fig5_temperature_dependence.opj: Data of temperature dependent variation of phase noise in Fig. 5. - Fig6_frequency_instability.opj: Data of frequency instability of wavelength converter in Fig. 6. **These are available under license: Creative Commons Attribution.