EasyQCL-1000: High Powered THz Lasers
The EasyQCL-1000 is LongWave Photonics' latest laser system. The newly developed pulse-tube cryocooler platform provides higher thermal lift at lower temperature which is capable of producing peak power levels of >50 mW and average power levels of >10 mW at various frequencies between 1.6 and 5 THz.
EasyQCL-200: Ultra-Low Vibration QCL Platform
The EasyQCL-200 improves on EasyQCL-110 with ultra-low vibration stability and liquid cooling for enhanced device performance. The combination of engineered vibration damping, and low liquid cooling results in a maximum vibration of 100 nm at the cold tip (RMS under full power). Configurable with up to 5 windows for side optical access (3 windows pictured). Also configurable with multiple QCLs devices or our new ultra-broadband QCLs.
EasyQCL-110: Versatile Laboratory Platform
The EasyQCL-110 is a terahertz QCL system capable of producing peak power levels of >10 mW and average power levels of >1 mW at frequencies between 1.9 and 5 THz. With nearly half the size and weightcompared with EasyQCL-100, this model is ideal for applications with strict space requirement.
EasyQCL-100: Versatile Laboratory Platform For Export Restricted Countries
The EasyQCL-100 is a terahertz QCL system capable of producing peak power levels of >10 mW and average power levels of >1 mW at frequencies between 1.9 and 5 THz. The system features user replaceable QCL modules for maximum experimental flexibility.
Ultra-Broadband QCLs
LongWave's New Ultra-Broadband QCLs now cover 1.6 THz to 4.3 THz from a single device. Ultra-Broadband QCLs are lens-coupled Fabry-Perot QCLs, and have low divergence beam patterns at mW power levels.
Applications:
Broadband spectroscopy
Hyperspectral imaging
Lens-Coupled Fabry-Perot THz QCLS 透镜耦合型法布里珀罗太赫兹量子级联激光器
LongWave Photonics provides high-power lens-coupled Fabry Perot devices at a range of Terahertz Frequencies. The high-resistivity anti-reflection coated Silicon lens improves the outcoupling efficiency of the laser while simultaneously improving beam pattern. The results: high power and low divergence THz radiation. This technology is exclusively licensed from the Massachusetts Institute of Technology (US Patent No. 8,619,832) from.
Single Mode Distributed Feedback (DFB) QCLs
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LongWave Photonics's newly developed cavity design (US Patent pending) enables highly-efficient single mode DFB laser with low divergence beam pattern from 1.9 to 5 THz. LongWave also provides customized design and fabrication service to meet your specfic freqeuncy and power requirements.
