Proton imaging at the end of the proton range

 Proton imaging at the end of the proton range

Proton imaging, particularly at the end of the proton range, is a rapidly advancing technique in medical physics, radiotherapy, and particle diagnostics. It plays a crucial role in verifying the exact location where protons deposit their maximum energy — the Bragg peak — thus enabling precise dose delivery in proton therapy. Accurate end-of-range proton imaging is vital to enhancing treatment efficacy, reducing radiation exposure to healthy tissue, and improving patient outcomes.

This imaging modality is fundamentally different from conventional X-ray or CT imaging. Since protons interact differently with tissues, dedicated technologies such as proton radiography, proton computed tomography (pCT), and time-resolved imaging systems are being developed and refined. The field also benefits from innovations in detector design, Monte Carlo simulations, and artificial intelligence-driven image reconstruction.

To increase awareness, collaboration, and discoverability of research and events in this area, the use of specific and targeted hashtags is essential. 

Global Particle Physics Excellence Awards

More Info: physicistparticle.com

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