Abstract
Portable mid-infrared (mid-IR) spectroscopy and sensing applications require widely tunable, chip-scale, single-mode sources without sacrificing significant output power. However, no such lasers have been demonstrated beyond 3 μm due to the challenge of building tunable, high quality-factor (Q) on-chip cavities. Here we demonstrate a tunable, single-mode mid-IR laser at 3.4 μm using a tunable high-Q silicon microring cavity and a multi-mode Interband Cascade Laser. We achieve single-frequency lasing with 0.4 mW output power via self-injection locking and a wide tuning range of 54 nm with 3 dB output power variation. We further estimate an upper-bound effective linewidth of 9.1 MHz and a side mode suppression ratio of 25 dB from the locked laser using a scanning Fabry-Perot interferometer. Our laser platform based on a tunable high-Q microresonator can be expanded to higher wavelength quantum-cascade lasers and lead to the development of compact, high-performance mid-IR sensors for spectroscopic applications.
Highlights
Portable mid-infrared spectroscopy and sensing applications require widely tunable, chip-scale, single-mode sources without sacrificing significant output power
Previous work includes distributed feedback-Quantum/Interband Cascade lasers (DFB-QCL/ICL)[2,3,4] that can provide high-power and single-mode output for compact mid-IR applications, but wavelength tuning of these lasers is achieved at the cost of significant output power variation related to direct tuning of gain medium
While chip-scale lasers with frequency tunability and narrow linewidth have been demonstrated using high-Q on-chip cavities[9,10,11] in the near-IR (NIR), enabling onchip optical frequency combs[12,13], there is no comparable demonstrations for the mid-IR range
Summary
Portable mid-infrared (mid-IR) spectroscopy and sensing applications require widely tunable, chip-scale, single-mode sources without sacrificing significant output power. We demonstrate a tunable single-mode mid-IR laser that uses a high-Q silicon-chip microresonator for self-injection locking of an ICL.
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