An optimized amplitude-weighting wavefront correction algorithm in laser systems

Q. Xue; L. Huang; P. Yan; M. L. Gong; Y. T. Qiu; T. H. Li; Z. X. Feng; X. K. Ma

doi:10.1088/1054-660X/23/9/095302

An optimized amplitude-weighting wavefront correction algorithm in laser systems

Q. Xue, L. Huang, P. Yan, M. L. Gong, Y. T. Qiu, T. H. Li, Z. X. Feng, X. K. Ma

Tsinghua University

Research output: Contribution to journal › Article › peer-review

Abstract

An optimized amplitude-weighting wavefront correction algorithm is proposed. Conventional correction algorithms do not optimize the Strehl ratio when the amplitude is non-uniform. The new algorithm yields an amplitude-weighted wavefront, aimed at reducing the variance of the weighted wavefront, instead of the variance of the wavefront as in conventional algorithms. The analytical equations explain how the weighted wavefront directly influences the Strehl ratio when the amplitude is non-uniform. The simulation results verify that the amplitude-weighting wavefront correction algorithm optimizes the Strehl ratio effectively in laser systems with Gaussian amplitudes. The new algorithm can improve the beam quality in laser systems compared with that attainable using conventional algorithms.

Original language	English
Article number	095302
Journal	Laser Physics
Volume	23
Issue number	9
DOIs	https://doi.org/10.1088/1054-660X/23/9/095302
Publication status	Published - Sept 2013
Externally published	Yes

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Xue, Q., Huang, L., Yan, P., Gong, M. L., Qiu, Y. T., Li, T. H., Feng, Z. X., & Ma, X. K. (2013). An optimized amplitude-weighting wavefront correction algorithm in laser systems. Laser Physics, 23(9), Article 095302. https://doi.org/10.1088/1054-660X/23/9/095302

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abstract = "An optimized amplitude-weighting wavefront correction algorithm is proposed. Conventional correction algorithms do not optimize the Strehl ratio when the amplitude is non-uniform. The new algorithm yields an amplitude-weighted wavefront, aimed at reducing the variance of the weighted wavefront, instead of the variance of the wavefront as in conventional algorithms. The analytical equations explain how the weighted wavefront directly influences the Strehl ratio when the amplitude is non-uniform. The simulation results verify that the amplitude-weighting wavefront correction algorithm optimizes the Strehl ratio effectively in laser systems with Gaussian amplitudes. The new algorithm can improve the beam quality in laser systems compared with that attainable using conventional algorithms.",

author = "Q. Xue and L. Huang and P. Yan and Gong, {M. L.} and Qiu, {Y. T.} and Li, {T. H.} and Feng, {Z. X.} and Ma, {X. K.}",

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AU - Xue, Q.

AU - Huang, L.

AU - Yan, P.

AU - Gong, M. L.

AU - Qiu, Y. T.

AU - Li, T. H.

AU - Feng, Z. X.

AU - Ma, X. K.

PY - 2013/9

Y1 - 2013/9

N2 - An optimized amplitude-weighting wavefront correction algorithm is proposed. Conventional correction algorithms do not optimize the Strehl ratio when the amplitude is non-uniform. The new algorithm yields an amplitude-weighted wavefront, aimed at reducing the variance of the weighted wavefront, instead of the variance of the wavefront as in conventional algorithms. The analytical equations explain how the weighted wavefront directly influences the Strehl ratio when the amplitude is non-uniform. The simulation results verify that the amplitude-weighting wavefront correction algorithm optimizes the Strehl ratio effectively in laser systems with Gaussian amplitudes. The new algorithm can improve the beam quality in laser systems compared with that attainable using conventional algorithms.

AB - An optimized amplitude-weighting wavefront correction algorithm is proposed. Conventional correction algorithms do not optimize the Strehl ratio when the amplitude is non-uniform. The new algorithm yields an amplitude-weighted wavefront, aimed at reducing the variance of the weighted wavefront, instead of the variance of the wavefront as in conventional algorithms. The analytical equations explain how the weighted wavefront directly influences the Strehl ratio when the amplitude is non-uniform. The simulation results verify that the amplitude-weighting wavefront correction algorithm optimizes the Strehl ratio effectively in laser systems with Gaussian amplitudes. The new algorithm can improve the beam quality in laser systems compared with that attainable using conventional algorithms.

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VL - 23

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An optimized amplitude-weighting wavefront correction algorithm in laser systems

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