Microwave power induced resonance shifting of silicon ring modulators for continuously tunable, bandwidth scaled frequency combs Article Swipe

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Bandwidth (computing) Center frequency Optics Microwave Materials science Optoelectronics Frequency modulation Frequency comb Silicon Free spectral range Physics Wavelength Telecommunications Computer science Band-pass filter Laser

K. P. Nagarjun , Piyush Raj , Vadivukkarasi Jeyaselvan , Shankar Kumar Selvaraja , V. R. Supradeepa ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.1364/oe.386810 · OA: W3014997208

We demonstrate a technique to continuously tune center frequency and repetition rate of optical frequency combs generated in silicon microring modulators and bandwidth scale them. We utilize a drive frequency dependent, microwave power induced shifting of the microring modulator resonance. In this work, we demonstrate center frequency tunability of frequency combs generated in silicon microring modulators over a wide range (∼8nm) with fixed number of lines. We also demonstrate continuously tunable repetition rates from 7.5GHz to 15GHz. Further, we use this effect to demonstrate a proof-of-principle experiment to bandwidth scale an 8-line (20dB band) comb generated from a single ring modulator driven at 10GHz to a comb with 12 and 15 lines by cascading two and three ring modulators, respectively. This is accomplished by merging widely spaced ring modulator resonances to a common location, thus coupling light simultaneously into multiple cascaded ring modulators.