Atomic Recoil and X-Ray Emission: Revisiting Atomic Structure Through AND Theory

Dilip D James

Abstract: This paper presents a causal, mechanical reinterpretation of x-ray production mechanisms through the lens of Augmented Newtonian Dynamics (AND theory). Contrary to the prevailing quantum model that explains characteristic x-rays through orbital transitions, this work proposes that high-energy photon emission arises from the recoil of bound electrons against the atomic nucleus. We examine Compton scattering, characteristic x-ray generation, and bremsstrahlung as unified manifestations of electron-nucleus interactions. By rejecting orbital jumps and emphasizing electron recoil and conservation principles, AND theory provides a coherent explanation for the directional, energetic, and quantized nature of x-ray emission. This model not only accounts for empirical energy spectra but challenges the sufficiency of field-based and probabilistic quantum interpretations. It further underscores the role of nuclear proximity in enabling radiation emission, arguing that no high-energy photon can be emitted without a mechanical recoil partner. The implications extend to our understanding of atomic structure, photon propagation, and the necessity of bound states for real photon emission.

Keywords: Photon structure, Compton scattering, characteristic x-rays, atomic structure, binding energy

How to Cite?: Dilip D James, "Atomic Recoil and X-Ray Emission: Revisiting Atomic Structure Through AND Theory", Volume 14 Issue 6, June 2025, International Journal of Science and Research (IJSR), Pages: 1028-1033, https://www.ijsr.net/getabstract.php?paperid=SR25614093945, DOI: https://dx.doi.org/10.21275/SR25614093945