期刊
OPTICS LETTERS
卷 46, 期 4, 页码 880-883出版社
OPTICAL SOC AMER
DOI: 10.1364/OL.415356
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- Innovationsfonden (INCOM)
Wavelength division multiplexing (WDM) systems can address the growing demand for higher bandwidth in data centers by utilizing the full capacity of a single optical fiber. Achieving a large channel spacing in WDM systems can be challenging, but using harmonic mode-locking can increase channel spacing while maintaining cavity size. The demonstrated 45 GHz harmonically mode-locked ring laser based on an intra-cavity Mach-Zehnder filter shows potential for practical implementation in high-capacity optical communication systems.
Wavelength division multiplexing (WDM) systems can utilize the full capacity of a single optical fiber and thereby keep up with the increasing demand for higher bandwidths within datacenters. A single mode-locked laser diode emits a comb of wavelengths and can thus, in principle, be used to generate all the channels of a WDM system. However, achieving a large channel spacing of much more than 20-30 GHz can be troublesome, since this depends directly on making the cavity smaller. To circumvent this, harmonic mode-locking can be utilized, as this increases the channel spacing while keeping the cavity size fixed. In this work, we show that a monolithically integrated 45-GHz harmonically mode-locked ring laser based on an intra-cavity Mach-Zehnder filter is feasible on a generic integration platform. True harmonic mode-locking was achieved with no measurable RF peak at the fundamental frequency. The pulse train exhibits an autocorrelation trace width of similar to 2.5 ps FWHM, RF linewidth of similar to 0.44 MHz, and 3-dB comb bandwidth of similar to 240 GHz. (C) 2021 Optical Society of America
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