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Fractional calculus within the optical model used in nuclear and particle physics

Richard Herrmann

2023Journal of Physics G Nuclear and Particle Physics11 citationsDOIOpen Access PDF

Abstract

Abstract The optical model is a fundamental tool to describe scattering processes in nuclear physics. The basic input is an optical model potential, which describes the refraction and absorption processes more or less schematically. Of special interest is the form of the absorption potential. With increasing energy of the incident projectile, a derivation of this potential must take into account the observed energy dependent transition from surface to volume type. The classic approach has weaknesses in this regard. We will discuss these deficiencies and will propose an alternative method based on concepts developed within the framework of fractional calculus, which allows to describe a smooth transition from surface to volume absorption in an appropriate way.

Topics & Concepts

Calculus (dental)PhysicsFractional calculusParticle (ecology)Theoretical physicsStatistical physicsApplied mathematicsMathematicsMathematical physicsNuclear physicsMedicineGeologyDentistryOceanographyNuclear physics research studiesMathematical functions and polynomialsRadioactive Decay and Measurement Techniques
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