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Article
Dissociative ionization of molecules in intense laser fields
Accurate and efficient grid based techniques for the solution of the time-dependent Schrödinger equation for few-electron diatomic molecules irradiated by intense, ultrashort laser pulses are described. These ...
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Chapter
Numerical Grid Methods
Over recent years in Belfast we have developed numerical grid methods for solving the two-electron time-dependent Schrödinger equation (TDSE) in its full-dimensionality 1–4]. We have specifically had in mind d...
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Chapter
Motion of Objects Through Dilute Bose-Einstein Condensates
This paper discusses the motion of objects through quantum fluids described by the Gross Pitaevskii (GP) equation. The object moves without dissipation at velocities below a threshold which corresponds to the ...
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Article
Second-order relativistic electron capture
Starting with the impulse approximation, we analyse second-order effects in relativistic electron capture. The relation of this model with relativistic distorted-wave approximations is clarified. In particular...
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Chapter
Stabilization and Coherence in the Photodissociation of Diatomic Molecules by Intense Lasers
The study of the fragmentation of molecules exposed to very intense sources of light, has led to the discovery of some unusual effects. Some of these effects are common to any multielectron monoatomic target, ...
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Article
Temperature dependence for the power outputs of n-CdSe liquid junction cells
Thin film n-CdSe photoanodes have great potential as efficient and inexpensive electrodes in liquid junction photovoltaics1–3. This stems from the stability of n-CdSe in the S/S2– electrolyte, its direct band gap
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Article
The photoelectrochemical effect at a p-GaP electrode
Increasing attention is being focused on the properties and behaviour of p-type semiconductor electrodes. For instance, p-type GaP electrodes have been used in photoelectrochemical cells for water splitting1, CO2
