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In this Article, the reaction number of ¹²⁶Sn (γ,n) ¹²⁵Sn due to gamma ray produced by bremsstrahlung and Compton scattering is analytically calculated. In bremsstrahlung method, photonuclear reactions are studied by focusing intensities more than 10²⁰ Wcm^-2 onto a 1.88 mm tantalum target, and a 1 cm thick ¹²⁶Sn target placed directly behind it.  It is shown that the laser intensity has strong effects on the number of reactions, as an optimal laser intensity is evaluated to produce the maximum number of reactions. furthermore, based on the reported data by SLEGS with 3.5 GeV energy electron, the inverse Compton scatterings of a 100W, CO₂ laser is studied. It is found that the number of reactions in the Compton backscattering method is about 27 orders magnitude greater than the one of the bremsstrahlung method for 10²¹Wcm^-2 laser intensity with a 10 Hz repetition rate for a half hour irradiation time.

Keywords: Radioactive Wastes, Compton Backscattering, Photonuclear Reactions, Bremsstrahlung Radiation

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