Simulation Analysis: Coherence-Based Gravitational Lensing

This work presents a novel simulation framework that models gravitational lensing as a product of coherence field gradients rather than spacetime curvature. Grounded in the E = R × C² resonance theory, the simulation sends a light wave packet through a dual-coherence field and tracks waveform transformations. Results demonstrate lensing-like bending, signal distortion, and redshift—all explained through coherence refraction. FFT analysis confirms that spectral shifts arise from waveform decoherence, offering a fundamentally different explanation from metric expansion or Doppler effects. This model contributes to a growing field of coherence-based cosmology and offers a testable alternative to general relativity in lensing phenomena.O. Furner, Timothy (2025). Black Holes as Field Vacuum Regions: An Emergent Gravity Solution to Singularities and Information Paradox. figshare. Dataset. https://doi.org/10.6084/m9.figshare.29379287.v2O. Furner, Timothy (2025). A Unified Theory of Signal-Driven Cosmic Renewal andTechnological Embodiment. figshare. Dataset. https://doi.org/10.6084/m9.figshare.29525846.v1<br>

本研究提出一种新颖的模拟框架，将引力透镜建模为相干场梯度的产物，而非时空曲率的结果。该框架基于E = R × C²共振理论，将光波包输入双相干场中并追踪其波形变换过程。实验结果呈现出类透镜弯曲、信号畸变与红移现象，所有这些均可通过相干折射得到合理解释。快速傅里叶变换（Fast Fourier Transform, FFT）分析证实，光谱位移源于波形退相干，这为宇宙学现象提供了不同于度规膨胀或多普勒效应的全新解释视角。该模型为日益发展的基于相干性的宇宙学领域贡献了新的研究方向，同时针对引力透镜现象提出了可被实验验证的、替代广义相对论的理论方案。 O. 弗纳、蒂莫西 (2025). 作为场真空区域的黑洞：解决奇点与信息悖论的涌现引力方案. figshare. 数据集. https://doi.org/10.6084/m9.figshare.29379287.v2 O. 弗纳、蒂莫西 (2025). 信号驱动的宇宙更新与技术具身统一理论. figshare. 数据集. https://doi.org/10.6084/m9.figshare.29525846.v1