High Power Laser Science and Engineering (Jan 2024)

Precise mode control of mid-infrared high-power laser diodes using on-chip advanced sawtooth waveguide designs

  • Jianmei Shi,
  • Chengao Yang,
  • Yihang Chen,
  • Tianfang Wang,
  • Hongguang Yu,
  • Juntian Cao,
  • Zhengqi Geng,
  • Zhiyuan Wang,
  • Haoran Wen,
  • Hao Tan,
  • Yu Zhang,
  • Dongwei Jiang,
  • Donghai Wu,
  • Yingqiang Xu,
  • Haiqiao Ni,
  • Zhichuan Niu

DOI
https://doi.org/10.1017/hpl.2024.23
Journal volume & issue
Vol. 12

Abstract

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Power scaling in conventional broad-area (BA) lasers often leads to the operation of higher-order lateral modes, resulting in a multiple-lobe far-field profile with large divergence. Here, we report an advanced sawtooth waveguide (ASW) structure integrated onto a wide ridge waveguide. It strategically enhances the loss difference between higher-order modes and the fundamental mode, thereby facilitating high-power narrow-beam emission. Both optical simulations and experimental results illustrate the significant increase in additional scattering loss of the higher-order modes. The optimized ASW lasers achieve an impressive output power of 1.1 W at 4.6 A at room temperature, accompanied by a minimal full width at half maximum lateral divergence angle of 4.91°. Notably, the far-field divergence is reduced from 19.61° to 11.39° at the saturation current, showcasing a remarkable 42% improvement compared to conventional BA lasers. Moreover, the current dependence of divergence has been effectively improved by 38%, further confirming the consistent and effective lateral mode control capability offered by our design.

Keywords