Development and implementation of a generic analysis template for structural-thermal-optical-performance modeling

Scola, Salvatore; Stavely, Rebecca L.; Jackson, Trevor; Boyer, C.M.; Osmundsen, J.; Turczynski, Craig; Stimson, Chad M.

doi:10.1117/12.2236427

Cited by 2 publications

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References 1 publication

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“…Traditionally, optical design and mechanical design simulations are conducted separately or sequentially due to a lack of a design and modeling data shared platform. Recently, a combined structural-thermal-optical-performance (STOP) analysis approach was proposed as a systematical design modeling solution for performance improvement in the telescope, camera, and precise optical instrument applications [6][7][8][9]. Model data mapping approximated from one physics model to another model was adopted.…”

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confidence: 99%

Multiphysics Modeling, Sensitivity Analysis, and Optical Performance Optimization for Optical Laser Head in Additive Manufacturing

et al. 2021

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Optical laser head is a key component used to shape the laser beam and to deliver higher power laser irradiation onto workpieces for material processing. A focused laser beam size and optical intensity need to be controlled to avoid decreasing beam quality and loss of intensity in laser material processing. This paper reports the multiphysics modeling of an in-house developed laser head for laser-aided additive manufacturing (LAAM) applications. The design of computer experiments (DoCE) combined with the response surface model was used as an efficient design approach to optimize the optical performance of a high power LAAM head. A coupled structural-thermal-optical-performance (STOP) model was developed to evaluate the influence of thermal effects on the optical performance. A number of experiments with different laser powers, laser beam focal plane positions, and environmental settings were designed and simulated using the STOP model for sensitivity analysis. The response models of the optical performance were constructed using DoCE and regression analysis. Based on the response models, optimal design settings were predicted and validated with the simulations. The results show that the proposed design approach is effective in obtaining optimal solutions for optical performance of the laser head in LAAM.

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Section: Of 17mentioning

confidence: 99%

Multiphysics Modeling, Sensitivity Analysis, and Optical Performance Optimization for Optical Laser Head in Additive Manufacturing

et al. 2021

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STOP model development and analysis of an optical collimation system for a tactical high-energy laser weapon

Lyu

Zhan

2021

Appl. Opt.

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To effectively avoid the bottleneck of optical collimation system distortion in the use of tactical high-energy laser weapons (THELWs), this paper proposes and realizes an optical–multiphysics–finite-element coupling analysis method. Combined with dynamic physical parameters, we construct and verify a structure–thermal–optical-performance (STOP) model and accurately restore the multiphysics coupling phenomenon in the THELW lens. Finally, we conclude that the limiting output power of THELW assembled with the doublet lens is 1155.6 W. Then, we draw a series of conclusions from different physical fields and make a comprehensive analysis of the optical collimation system performance. The analysis methods and conclusions described in the paper are of great significance for the R & D of future laser weapons and other optical systems.

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Development and implementation of a generic analysis template for structural-thermal-optical-performance modeling

Cited by 2 publications

References 1 publication

Multiphysics Modeling, Sensitivity Analysis, and Optical Performance Optimization for Optical Laser Head in Additive Manufacturing

Multiphysics Modeling, Sensitivity Analysis, and Optical Performance Optimization for Optical Laser Head in Additive Manufacturing

STOP model development and analysis of an optical collimation system for a tactical high-energy laser weapon

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