John D. Zahrt scite author profile

A laboratory protoype system has been developed for the experimental evaluation of an explosives detection technique based on nuclear resonance absorption of gamma rays in nitrogen. Major subsystems include a radiofrequency quadrupole proton accelerator and associated beam transport system, a high-power gamma-ray production target, an airline-luggage tomographic inspection station, and an image-processing/detection-alarm subsystem. The detection system performance, based on a limited experimental test, is reported.

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Exchange-Charge-Model Calculation of the Born—Mayer Repulsive Potential in Ionic Gases and Crystals

Hafemeister¹,

Zahrt

1967

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By considering the deformation of the free ions and within the framework of the exchange charge model (ECM) of Dick and Overhauser and the technique of symmetrical orthoganalization of Löwdin, we have calculated the radial dependence of the repulsive potential for ionic gases and solids. The repulsive potential is considered to be a summation of the electrostatic energy between effective nuclear charges and the exchange charges, and it very closely fits the form of the Born—Mayer repulsive potential, B exp(—r/ρ). We have shown that the ECM values of the potential for the gases do not depend on the size of the effective nuclear charge and the values of ρ agree to within 10% with the experimental data. The crystalline values of ρ agree with the data reasonably well, but deviations are noted. The calculation of ρ depends only on the Hartree—Fock free-ion functions whereas calculations of dissociation energies, molecular force constants, vibrational frequencies, cohesive energies, compressibilities, and Debye temperatures depend also on the equilibrium spacing. The alkali hydride and hydride—hydride overlap integrals and their radial dependence are tabulated.

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<title>Prototype explosives detection system based on nuclear resonance absorption in nitrogen</title>

Exchange-Charge-Model Calculation of the Born—Mayer Repulsive Potential in Ionic Gases and Crystals

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