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Mean Free Paths and Cross Sections for Electron Scattering from Liquid Water

Nidhi Sinha, Bobby Antony

2021The Journal of Physical Chemistry B25 citationsDOI

Abstract

Electron collision with liquid water is theoretically investigated and reported in this article. The range of projectile energy considered is 10-5000 eV, covering all major channels, viz., ionization, inelastic, elastic, and total scattering. The liquid phase electron charge density and static potential are generated and used in the calculation under a spherical complex optical potential formalism to achieve the goals. For the ionization channel, the complex scattering potential-ionization contribution method is used. The agreement with available theoretical data is satisfactory. The study on the total electron scattering from liquid water, using a common method for elastic and inelastic cross sections, is new and requires further attempts to support the reported data.

Topics & Concepts

IonizationScatteringAtomic physicsProjectileInelastic scatteringElastic scatteringLiquid waterElectronElectron scatteringFormalism (music)Mott scatteringPhysicsIonSmall-angle neutron scatteringNuclear physicsOpticsQuantum mechanicsNeutron scatteringThermodynamicsArtVisual artsMusicalAtomic and Molecular PhysicsMass Spectrometry Techniques and ApplicationsElectrohydrodynamics and Fluid Dynamics
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