激光阈值
光电子学
太赫兹辐射
级联
谐振器
材料科学
激光器
Q系数
天线(收音机)
量子阱
光子学
半导体激光器理论
物理
光学
消散
量子级联激光器
量子
照相混合
量子点激光器
质量(理念)
光抽运
量子效率
功率(物理)
自发辐射
砷化镓
量子光学
还原(数学)
可调谐激光器
光学腔
作者
Shanzhi Zang,Cheng Tan,Kai Wang,Lu Gan,Chuanfeng Yan,Chentao Cao,Bingqi Chen,Hongtai Chen,Yueheng Zhang,Yulong Fang,Chun Lin,G Xu
摘要
We demonstrate terahertz quantum cascade lasers (THz-QCLs) employing a few-period patch-antenna array as the resonant cavity, enabling a drastic reduction of the active-region area while preserving a high cavity quality factor Qcav. By designing the antenna period in the deep-subwavelength regime, an infinite array supports a photonic band located well below the light cone with theoretically infinite Qcav. Reducing the number of antenna periods progressively broadens the mode in momentum space and couples it to radiative channels, allowing controlled tuning of Qcav. Experimentally, a four-antenna THz-QCL exhibits continuous-wave (CW) lasing with an ultralow electrical power consumption of 56 mW, delivering 0.8 mW output power at 20 K and operating up to 76.6 K. Increasing the cavity size to eight antennas extends the CW operating temperature to 97.3 K with a power dissipation of only 100 mW. These results establish few-period patch-antenna resonators as an effective strategy for low-power-consumption, high-temperature CW THz-QCLs.
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