Litcius/Paper detail

Effect of molecular constitution and conformation on positron binding and annihilation in alkanes

A. R. Swann, G. F. Gribakin

2020The Journal of Chemical Physics22 citationsDOIOpen Access PDF

Abstract

The model-potential approach previously developed by the authors to study positron interactions with molecules is used to calculate the positron binding energy for n-alkanes (CnH2n+2) and the corresponding cycloalkanes (CnH2n). For n-alkanes, the dependence of the binding energy on the conformation of the molecule is investigated, with more compact structures showing greater binding energies. As a result, thermally averaged binding energies for larger alkanes (n ≳ 9) show a strong temperature dependence in the range of 100 K–600 K. This suggests that positron resonant annihilation can be used as a probe of rotational (trans-gauche) isomerization of n-alkanes. In particular, the presence of different conformers leads to shifts and broadening of vibrational Feshbach resonances in the annihilation rate, as observed with a trap-based low-energy positron beam.

Topics & Concepts

AnnihilationConformational isomerismPositronBinding energyPositron annihilationMoleculeChemistryIsomerizationAtomic physicsRange (aeronautics)Molecular physicsPositroniumPhysicsVibrational energyEnergy (signal processing)Annihilation radiationMaterials scienceDoppler broadeningCrystallographyMuon and positron interactions and applicationsAtomic and Molecular PhysicsSynthesis and characterization of novel inorganic/organometallic compounds