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High-Resolution Imaging of C + He Collisions using Zeeman Deceleration and Vacuum-Ultraviolet Detection

Vikram Plomp, Xudong Wang, François Lique, Jacek Kłos, Jolijn Onvlee, Sebastiaan Y. T. van de Meerakker

2021The Journal of Physical Chemistry Letters17 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide High-resolution measurements of angular scattering distributions provide a sensitive test for theoretical descriptions of collision processes. Crossed beam experiments employing a decelerator and velocity map imaging have proven successful to probe collision cross sections with extraordinary resolution. However, a prerequisite to exploit these possibilities is the availability of a near-threshold state-selective ionization scheme to detect the collision products, which for many species is either absent or inefficient. We present the first implementation of recoil-free vacuum ultraviolet (VUV) based detection in scattering experiments involving a decelerator and velocity map imaging. This allowed for high-resolution measurements of state-resolved angular scattering distributions for inelastic collisions between Zeeman-decelerated carbon C( 3 P 1 ) atoms and helium atoms. We fully resolved diffraction oscillations in the angular distributions, which showed excellent agreement with the distributions predicted by quantum scattering calculations. Our approach offers exciting prospects to investigate a large range of scattering processes with unprecedented precision.

Topics & Concepts

ScatteringRecoilZeeman effectPhysicsAtomic physicsAngular resolution (graph drawing)Resolution (logic)Image resolutionRange (aeronautics)HeliumInelastic scatteringIonizationComputational physicsOpticsIonMagnetic fieldMaterials scienceMathematicsComputer scienceQuantum mechanicsArtificial intelligenceComposite materialCombinatoricsCold Atom Physics and Bose-Einstein CondensatesSpectroscopy and Laser ApplicationsAtomic and Subatomic Physics Research
High-Resolution Imaging of C + He Collisions using Zeeman Deceleration and Vacuum-Ultraviolet Detection | Litcius