J
James M. Farrar
Researcher at University of Rochester
Publications - 79
Citations - 2033
James M. Farrar is an academic researcher from University of Rochester. The author has contributed to research in topics: Ion & Excited state. The author has an hindex of 24, co-authored 79 publications receiving 1959 citations. Previous affiliations of James M. Farrar include University of Chicago.
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Techniques for the study of ion-molecule reactions
TL;DR: Ion cyclotron resonance spectrometry Fourier transform mass spectrometer neutral products from electron bombardment flow studies flowing afterglow and sift pulsed electron high pressure mass spectrumeter nuclear decay techniques ion beam methods state-selected and state-to-state ion-molecules reaction dynamics by photo-ionization methods spectroscopic probes infrared laser photolysis pulsed methods for cluster ion spectroscopy.
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Intermolecular Potentials from Crossed Beam Differential Elastic Scattering Measurements. V. The Attractive Well of He2
James M. Farrar,Y. T. Lee +1 more
TL;DR: In this article, the van der Waals well of the helium pair potential has been studied by crossed molecular beam elastic scattering measurements, and a multiparameter potential function is used to construct the interatomic potential from experimental results.
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The question of energy randomization in the decomposition of chemically activated C2H4F
James M. Farrar,Y. T. Lee +1 more
TL;DR: The question of whether energy randomization occurs in the decomposition of chemically activated C2H4F is further examined with the crossed molecular beam technique by measuring the collision energy dependence of the product recoil energy distributions as discussed by the authors.
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Attractive well of He–He from 3He–4He differential elastic scattering measurements
TL;DR: In this article, the elastic differential cross section for 3He-4He was measured at a relative collision energy of 0.799×10−14 erg, approximately five times the well depth.
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Absorption spectra of size‐selected solvated metal cations: Electronic states, symmetries, and orbitals in Sr+(NH3)1,2 and Sr+(H2O)1,2
M. H. Shen,James M. Farrar +1 more
TL;DR: In this paper, the authors present photodissociation spectra for the solvated metal ion clusters Sr+(NH3)1,2 and Sr+(H2O) 1,2 from 420 to 740 nm in the visible region of the spectrum.