Abstract: The present disclosure discloses a hundred-kilowatts-level monolithic fiber laser based on auxiliary lasers and hybrid cladding pumping scheme. Multi-wavelength auxiliary lasers and a signal laser are simultaneously coupled into a core of a gain fiber, and the gain fiber provides gains for the auxiliary lasers and the signal laser under multi-wavelength cladding pumping. The multi-wavelength auxiliary lasers and the signal laser are sequentially amplified under the action of gain competition, and the amplification of signal laser is suppressed at a front segment of the gain fiber, while the signal laser is effectively amplified at a rear segment of the gain fiber after the multi-wavelength auxiliary lasers are reabsorbed; quantum defects generated are reduced, and uniformly distributed thermal loads will be achieved, and the bearing capacity of laser power is improved, thereby further achieving inhibition on the transverse mode instability effect.

Abstract: The present invention discloses a high-peak-power single-frequency narrow-linewidth nanosecond fiber laser based on a triangular pulse, wherein the laser includes: pulsed laser generated by the laser seed injecting into a first power pre-amplifier through a first isolator, and then injecting into a second pre-amplifier and then injecting into a power amplifier; wherein triangle-shaped pulsed laser with fast rising edge is obtained by using electro-optic and acousto-optic modulator to modulate continuous wave single-frequency laser or a single-frequency semiconductor laser directly modulated by radio frequency signal; single-frequency triangle-shaped pulsed laser is employed as the laser source according to the characteristics of narrow intrinsic linewidth and suppression of linewidth broadening caused by SPM, and the power of pulsed laser is amplified through the MOPA system.

Abstract: The present invention discloses a high-peak-power single-frequency narrow-linewidth nanosecond fiber laser based on a triangular pulse, wherein the laser includes: pulsed laser generated by the laser seed injecting into a first power pre-amplifier through a first isolator, and then injecting into a second pre-amplifier and then injecting into a power amplifier; wherein triangle-shaped pulsed laser with fast rising edge is obtained by using electro-optic and acousto-optic modulator to modulate continuous wave single-frequency laser or a single-frequency semiconductor laser directly modulated by radio frequency signal; single-frequency triangle-shaped pulsed laser is employed as the laser source according to the characteristics of narrow intrinsic linewidth and suppression of linewidth broadening caused by SPM, and the power of pulsed laser is amplified through the MOPA system.

Abstract: A terahertz waveguide includes an input segment, a transmission segment and an output segment. The input segment includes an input waveguide and an input microstructured waveguide. One end of the input waveguide is connected with one end of the core of the input microstructured waveguide. The transmission segment includes at least a sub-wavelength waveguide, an air cladding surrounding the sub-wavelength waveguide and a solid outer cladding surrounding the air cladding. The other end of the core of the input microstructured waveguide is connected with one end of the sub-wavelength waveguide. The other end of the sub-wavelength waveguide is connected with the core of the output microstructured waveguide. One end of the solid outer cladding is connected with the cladding of the input microstructured waveguide, and an output segment. The output segment includes an output microstructured waveguide and an output waveguide.

Abstract: A terahertz waveguide includes an input segment, a transmission segment and an output segment. The input segment includes an input waveguide and an input microstructured waveguide. One end of the input waveguide is connected with one end of the core of the input microstructured waveguide. The transmission segment includes at least a sub-wavelength waveguide, an air cladding surrounding the sub-wavelength waveguide and a solid outer cladding surrounding the air cladding. The other end of the core of the input microstructured waveguide is connected with one end of the sub-wavelength waveguide. The other end of the sub-wavelength waveguide is connected with the core of the output microstructured waveguide. One end of the solid outer cladding is connected with the cladding of the input microstructured waveguide, and an output segment. The output segment includes an output microstructured waveguide and an output waveguide.

Abstract: A wide spectrum detector and a preparation method. The detector includes: a substrate and at least one detection unit, wherein the at least one detection unit is provided on the substrate and the at least one detection unit includes: two metal electrodes and a perovskite material layer, wherein the perovskite material layer is in ohmic contact with the two metal electrodes.