We present a theoretical and experimental study of passively mode-locked optoelectronic oscillators that generate a single-cycle pulse train with an autonomous envelope-carrier phase locking. The theoretical study is performed by developing a numerical simulation. A good agreement is achieved between the theoretical and the experimental results. We theoretically study the effect of the periodic frequency dependence of the dispersion coefficient on the generation of a single-cycle pulse train with an autonomous envelope-carrier phase locking. The timing jitter is experimentally measured by performing a spectral analysis of the pulse train. The spectral analysis suggests a timing jitter of about 5 ps by using an integration bandwidth of 100 Hz to 1 MHz. The measured jitter is compared to the result of the numerical simulation and to an analytical expression.
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