Zexi Zhao scite author profile

Based on the premise that further improvements to the size and damage threshold of large-aperture optical components are severely limited, coherent beam combining (CBC) is a promising way to scale up the available peak power of pulses for ultrashort ultrahigh intensity laser systems. Spectral phase effects are important issues and have a significant impact on the performance of CBC. In this work, we analyze systematically factors such as spectral dispersions and longitudinal chromatism, and get the general spectral phase control requirements of CBC for ultrashort ultrahigh intensity laser systems. It is demonstrated that different orders of dispersion influence intensity shape of the combined beam, and high-order dispersions affect the temporal contrast of the combined beam, while the number of the channels to be combined has little impact on the temporal Strehl ratio (SR) of the combined beam. In addition, longitudinal chromatism should be controlled effectively since it has a detrimental effect on the combined beam at the focal plane, both temporally and spatially.

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High Precision and Large Range Timing Jitter Measurement and Control of Ultrashort Laser Pulses

Cui

Gao

Zhao

et al. 2016

IEEE Photon. Technol. Lett.

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Secure Optical Communication System Based on ASE Noise with No Need for Key Distribution

Zhao

Deng

et al. 2018

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Zexi Zhao

Synchronized Random Bit Sequences Generation Based on Analog-Digital Hybrid Electro-Optic Chaotic Sources

Semiconductor-laser-based hybrid chaos source and its application in secure key distribution

Spectral phase effects and control requirements of coherent beam combining for ultrashort ultrahigh intensity laser systems

High Precision and Large Range Timing Jitter Measurement and Control of Ultrashort Laser Pulses

Secure Optical Communication System Based on ASE Noise with No Need for Key Distribution

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