Quasimolecular K X-ray excitation by bombardment of Ge atoms with Ge ions

Gippner, P.; Kaun, K.‐H.; Stary, F.; Schulze, W.; Tret'yakov, Yu. P.

doi:10.1016/0375-9474(74)90153-5

Cited by 20 publications

(6 citation statements)

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“…By applying Doppler shift corrections the intrinsic anisotropy of the quasimolecular KX-radiation is found.We have first shown in our previous experiments with Ge, Nb and ga ions [1][2][3] that the x-ray continuum lying above the intensive characteristic KX-lines of the ions and the target material consists of a lowenergy and high-energy component, denoted by us as (C1) and (C2), respectively. The high-energy part (C2) of the continuum has been interpreted as quasimolecular KX-radiation.…”

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confidence: 99%

The Doppler shift and anisotropy of quasimolecular X-rays emitted in Nb+Nb collisions at 67 MeV

et al. 1976

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The quasimolecular KX-ray spectrum obtained by bombarding Nb with 67 MeV Nb ions has been found to undergo a Doppler shift with an effective Doppler velocity equal to the mean center-of-mass velocity of the intermediate Nb + Nb molecule, corresponding to the projectile velocity. By applying Doppler shift corrections the intrinsic anisotropy of the quasimolecular KX-radiation is found.We have first shown in our previous experiments with Ge, Nb and ga ions [1][2][3] that the x-ray continuum lying above the intensive characteristic KX-lines of the ions and the target material consists of a lowenergy and high-energy component, denoted by us as (C1) and (C2), respectively. The high-energy part (C2) of the continuum has been interpreted as quasimolecular KX-radiation. Besides the properties of the (C2) component, the physical nature of the low energy component (

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The Doppler shift and anisotropy of quasimolecular X-rays emitted in Nb+Nb collisions at 67 MeV

et al. 1976

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“…We finally investigate the very asymmetric subcritical system C1 + Pb (Z~ = 17,Z2 = 82), since it has also been studied experimentally [9,10]. In Fig.…”

Section: Numerical Results For the 6-levelsmentioning

confidence: 99%

The eigenspectrum of the relativistic two-center Hamiltonian in the diatomic basis of bound hydrogenlike Dirac-spinors

Pöschl

Dietrich

1995

Z. Physik A - Hadrons and Nuclei

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Abstract. During heavy ion collisions below the Coulomb barrier adiabatic molecular orbitals are formed for the inner electrons. For systems with total changes exceending Z = Z1 + Z2 --60 relativistic effects are important and we, therefore, use the two-center Dirac Hamiltonian to describe the dynamics. We investigate the method to approximate these molecular orbitals by an expansion in a di-atomic basis of Dirac wave functions and determine the binding energies by a variation of the expansion coefficients. Deviations from adiabaticity are taken into account to first order in the relative velocity (v/c ~ 0.1) of the nuclei which is considerably smaller than the electron velocity.

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“…A logical step in the direction of the anisotropy studies of the MO-KX-rays is the investigation of the Ge + Ge system, whose atomic number lies between the atomic numbers of the Ni+Ni and Nb+Nb systems. Our earlier measurements have shown that in this system a two-component structure of the MO-radiation also exists [7]. Here we would like to report on the measurements carried out under better experimental conditions and at various emission angles 0.…”

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confidence: 95%

Anisotropy and angular distribution of quasimolecularK X-radiation emitted in Ge+Ge collisions

et al. 1977

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Quasimolecular K X-ray excitation by bombardment of Ge atoms with Ge ions

Cited by 20 publications

References 9 publications

The Doppler shift and anisotropy of quasimolecular X-rays emitted in Nb+Nb collisions at 67 MeV

The Doppler shift and anisotropy of quasimolecular X-rays emitted in Nb+Nb collisions at 67 MeV

The eigenspectrum of the relativistic two-center Hamiltonian in the diatomic basis of bound hydrogenlike Dirac-spinors

Anisotropy and angular distribution of quasimolecularK X-radiation emitted in Ge+Ge collisions

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