E. Leber scite author profile

A joint experimental and theoretical study of low-energy electron collisions with methyl iodide molecules with emphasis on dissociative attachment (DA) over the range 0-170 meV has been carried out. Below the onset for the symmetric C-I stretch (ν 3 = 1) vibrational excitation, a prominent narrow peak is observed followed by a cusp at threshold. On approach to the ν 3 = 2 onset, the DA cross section shows a rapid drop terminated by a cusp at threshold. The experimental findings are interpreted by an R-matrix calculation which includes non-local effects and involves realistic model potentials for the neutral molecule and negative ion. Mediated by the combined effects of dipolar and polarization attraction in the electron CH 3 I interaction, the peak below the ν 3 = 1 onset is identified as a vibrational ('nuclear-excited') Feshbach resonance which so far may represent the clearest example of its kind. The higher vibrational onsets are free of such resonances. The effects of initial vibrational excitation are discussed and found to be significant. Predictions are made for elastic (σ -wave) and vibrationally inelastic cross sections and structure at the ν 3 = 1 onset is discussed. Absolute DA cross sections and DA rate coefficients for Maxwellian electron gases with variable electron temperature (for the fixed gas temperature T G = 300 K) are presented.

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High resolution study of anion formation in low-energy electron attachment to SF6 molecules in a seeded supersonic beam

Braun

Barsotti

Marienfeld

et al. 2005

Eur. Phys. J. D

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Vibrational Feshbach resonances in electron attachment to carbon dioxide clusters

Leber

Barsotti

Fabrikant

et al. 2000

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Near threshold photoionization of excited alkali atoms Ak(np) (Ak = Na, K, Rb, Cs; n = 3-6)

Petrov

Sukhorukov

Leber

et al. 2000

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The effect of the polarization of the atomic core by the outer electron on near threshold photoionization of excited alkali atoms Ak(np) (Ak = Na-Cs; n = 3−6) is investigated. Partial and total cross-sections for photo-ionization of the np-electron were computed utilizing the configuration interaction technique with Pauli-Fock atomic orbitals (CIPF) and including the long range core polarization potential (CP). To calculate the core polarization potential the variational principle is applied. Comparison with previous theoretical results and with available experimental data is made for the total cross-section σ, for the electron angular distribution parameter β, for the ratio ν = |D d /Ds| of the reduced electric dipole matrix elements and for the phase shift difference ∆ = δ d − δs, associated with the d-wave and s-wave continua, respectively. In the comparison, new experimental results for σ, ν, and ∆, measured for laser-excited, polarized 39 K(4p 3/2 ) atoms, have been included.PACS. 32.80.Fb Photoionization of atoms and ions -33.60.-q Photoelectron spectra -31.50.+w Excited states

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Formation of small water cluster anions by attachment of very slow electrons at high resolution

Weber

Leber

Ruf

et al. 1999

The European Physical Journal D - Atomic, Molecular and Optical

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E. Leber

Vibrational resonance and threshold effects in inelastic electron collisions with methyl iodide molecules

High resolution study of anion formation in low-energy electron attachment to SF6 molecules in a seeded supersonic beam

Vibrational Feshbach resonances in electron attachment to carbon dioxide clusters

Near threshold photoionization of excited alkali atoms Ak(np) (Ak = Na, K, Rb, Cs; n = 3-6)

Formation of small water cluster anions by attachment of very slow electrons at high resolution

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