Spatial correlation-based quadratic cost function for wavefront shaping through scattering media.

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Biomedical Optics Pub Date : 2024-11-01 Epub Date: 2024-11-20 DOI:10.1117/1.JBO.29.11.115002
Amit Kumar, Ayush Sharma, S K Biswas
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引用次数: 0

Abstract

Significance: The feedback-based wavefront shaping emerges as a promising method for deep tissue microscopy, energy control in bio-incubation, and re-configurable structural illuminations. The cost function plays a crucial role in the feedback-based wavefront optimization for focusing light through scattering media. However, popularly used cost functions, such as intensity ( η ) and peak-to-background ratio (PBR) struggle to achieve precise intensity control and uniformity across the focus spot.

Aim: We have proposed an 2 -norm-based quadratic cost function (QCF) for establishing both intensity and position correlations between image pixels, which helps to advance the focusing light through scattering media, such as biological tissue and ground glass diffusers.

Approach: The proposed cost function has been integrated into the genetic algorithm, establishing pixel-to-pixel correlations that enable precise and controlled contrast optimization, while maintaining uniformity across the focus spot and effectively suppressing the background intensity.

Results: We have conducted both simulations and experiments using the proposed QCF, comparing its performance with the commonly used η and PBR-based cost functions. The results evidently indicate that the QCF achieves superior performance in terms of precise intensity control, uniformity, and background intensity suppression. By contrast, both the η and PBR cost functions exhibit uncontrolled intensity gain compared with the proposed QCF.

Conclusions: The proposed QCF is most suitable for applications requiring precise intensity control at the focus spot, better uniformity, and effective background intensity suppression. This method holds significant promise for applications where intensity control is critical, such as photolithography, photothermal treatments, dosimetry, and energy modulation within and outside bio-incubation systems.

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基于空间相关性的二次成本函数,用于通过散射介质的波前整形。
意义重大:基于反馈的波前整形是一种很有前途的方法,适用于深部组织显微镜、生物培养中的能量控制以及可重新配置的结构照明。成本函数在通过散射介质聚焦光的反馈式波前优化中起着至关重要的作用。目的:我们提出了一种基于ℓ 2 -norm的二次成本函数(QCF),用于建立图像像素之间的强度和位置相关性,这有助于推动聚焦光穿过散射介质,如生物组织和磨玻璃扩散器:方法:提议的成本函数已被集成到遗传算法中,建立像素间的相关性,从而实现精确可控的对比度优化,同时保持聚焦点的均匀性,并有效抑制背景强度:我们使用所提出的 QCF 进行了模拟和实验,并将其性能与常用的基于 η 和 PBR 的成本函数进行了比较。结果表明,QCF 在精确的强度控制、均匀性和背景强度抑制方面都表现出色。相比之下,与提出的 QCF 相比,η 和 PBR 成本函数都表现出不可控的强度增益:结论:所提出的 QCF 最适合需要精确控制聚焦点的强度、更好的均匀性和有效的背景强度抑制的应用。在光刻技术、光热治疗、剂量测定以及生物培养系统内外的能量调制等对强度控制要求极高的应用中,这种方法大有可为。
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来源期刊
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
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