J.H.D. Eland scite author profile

J.H.D. Eland

5Publications

28Citation Statements Received

68Citation Statements Given

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University of Oxford, Science Oxford

Publications

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The Band 12 Issue in the Electron Momentum Spectra of Norbornane: A Comparison with Additional Green's Function Calculations and Ultraviolet Photoemission Measurements

et al. 2005

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In continuation of a recent study of the electronic structure of norbornane [J. Chem. Phys., 2004, 121, 10525] by means of electron momentum spectroscopy (EMS), we present Green's Function calculations of the ionization spectrum of this compound at the ADC(3) level using basis sets of varying quality, along with accurate evaluations at the CCSD(T) level of the vertical (26.5 eV) and adiabatic (22.1 eV) double ionization thresholds under C(2v) symmetry. The obtained results are compared with newly recorded ultraviolet photoemission spectra (UPS), up to binding energies of 40 eV. The theoretical predictions are entirely consistent with experiment and indicate that, in a vertical depiction of ionization, shake-up states at binding energies larger than approximately 26.5 eV tend to decay via emission of a second electron in the continuum. A band of s-type symmetry that has been previously seen at approximately 25 eV in the electron impact ionization spectra of norbornane is entirely missing in the UPS measurements and theoretical ADC(3) spectra. With regard to these results and to the time scales characterizing electron-electron interactions in EMS (10(-17) s) as compared with that (10(-13) s) of photon-electron interactions in UPS, and considering the p-type symmetry of the electron momentum distributions for the nearest 1b(1) and 1b(2) orbitals, this additional band can certainly not be due to adiabatic double ionization processes starting from the ground electronic state of norbornane, or to exceptionally strong vibronic coupling interactions between cationic states derived from ionization of the latter orbitals. It is therefore tentatively ascribed to autoionization processes via electronically excited and possibly dissociating states.

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Simple radial position-sensitive detector with short deadtime for time-of-flight and coincidence experiments

Eland¹,

Pearson²

1990

Meas. Sci. Technol.

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A simple one-dimensional position-sensitive detector using delay-line encoding to achieve deadtimes below 100 ns for groups of particles is presented. The design allows for trade-off between positional resolution, deadtime and the number of particles per group. The prototype performance (1 mm resolution, 100 ns deadtime for up to four particles) has been tested in applications to dissociative single and double photoionisation of small molecules. The forward/backward electron ejection asymmetry in NO photoionisation to NO+ (c3 Pi ) and an axial/transverse asymmetry on O2 photoionisation are confirmed.

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Electronic autoionization in molecular ion formation

Eland¹

1980

J. Chim. Phys.

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A curious regularity in the dissociative photoionization of fluorinated benzenes: why do C6F6+ and C6H6+ dissociate so differently?

Kinugawa¹,

Hodgekins²,

Eland³

2003

Chemical Physics Letters

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Polarization measurements of laboratory VUV light: a first comparison between multilayer polarizers and photoelectron angular distributions

Takahashi

Hatano

Ejima

et al. 2003

Journal of Electron Spectroscopy and Related Phenomena

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J.H.D. Eland

The Band 12 Issue in the Electron Momentum Spectra of Norbornane: A Comparison with Additional Green's Function Calculations and Ultraviolet Photoemission Measurements

Simple radial position-sensitive detector with short deadtime for time-of-flight and coincidence experiments

Electronic autoionization in molecular ion formation

A curious regularity in the dissociative photoionization of fluorinated benzenes: why do C6F6+ and C6H6+ dissociate so differently?

Polarization measurements of laboratory VUV light: a first comparison between multilayer polarizers and photoelectron angular distributions

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