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A mid-infrared Brillouin laser using ultra-high-Q on-chip resonators

Kiyoung Ko, Daewon Suk, Dohyeong Kim, Soobong Park, Betül Şen, Dae‐Gon Kim, Yingying Wang, Shixun Dai, Xunsi Wang, Rongping Wang, Byung Jae Chun, Kwang-Hoon Ko, Peter T. Rakich, Duk‐Yong Choi, Hansuek Lee

2025Nature Communications15 citationsDOIOpen Access PDF

Abstract

Ultra-high-Q optical resonators have facilitated advancements in on-chip photonics by harnessing nonlinear functionalities. While these breakthroughs, primarily focused on the near-infrared region, have extended interest to longer wavelengths holding importance for molecule science, the absence of ultra-high-Q resonators in this region remains a significant challenge. Here, we have developed on-chip microresonators with a remarkable Q-factor of 38 million at 3.86 μm wavelength, surpassing previous records by over 30 times. Employing innovative fabrication techniques, including spontaneous formation of light-guiding geometries with internal multilayer structures during material deposition, major loss factors, such as airborne-chemical absorption, were investigated and addressed. This allowed us to access the fundamental loss performance demonstrated by chalcogenide glass fibers. Leveraging this resonator, we demonstrated an on-chip Brillouin lasing in the mid-infrared with a 91.9 μW threshold power and an 83.5 Hz Schawlow-Townes linewidth. Our results showcase the effective integration of cavity-enhanced optical nonlinearities into on-chip mid-infrared photonics. Here the authors developed on-chip microresonators with a remarkable Q-factor of 38 million and demonstrated on-chip Brillouin lasing in the mid-infrared. These results highlight opportunities to create more compact and efficient platforms for molecular science.

Topics & Concepts

ResonatorLaserOptoelectronicsBrillouin zoneMaterials scienceChipInfraredOpticsTelecommunicationsPhysicsComputer scienceAdvanced Fiber Laser TechnologiesPhotonic and Optical DevicesMechanical and Optical Resonators
A mid-infrared Brillouin laser using ultra-high-Q on-chip resonators | Litcius