LBTEK mid-infrared femtosecond optical parametric amplifiers can generate high-power, ultrashort-pulse mid-infrared lasers. The core principle involves utilizing the parametric amplification effect of nonlinear optical crystals to efficiently convert pump light energy into femtosecond laser pulses at specific mid-infrared wavelengths. With femtosecond-level ultrashort pulse widths and continuously tunable wavelength characteristics, it adapts to numerous application scenarios. The mid-infrared wavelength tuning range of LBTEK mid-infrared femtosecond lasers covers 6-12 μm, providing stable and high-intensity laser output to meet diverse experimental requirements in this spectral range. Additionally, the mid-infrared ultra-broadband tunable femtosecond optical parametric amplifier, based on stable optical, mechanical, and electronic control designs, can flexibly achieve tunable wavelength femtosecond laser pulse output, with a wavelength tuning range of 4−16 µm and an output pulse width of <500 fs.