Isotope effects on the charge transfer into the n=1, 2, and 3 shells of He{sup 2+} in collisions with H, D, and T
Journal Article
·
· Physical Review. A
- Quantum Theory Project, Departments of Physics and Chemistry, University of Florida, Gainesville, Florida 32611-8435 (United States)
- Physics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831 (United States)
- KVI Atomic Physics, University of Groningen, NL-9747 AA Groningen (Netherlands)
Processes for charge transfer into He{sup 2+} colliding with the atomic isotopes hydrogen (H), deuterium (D), and tritium (T) are theoretically studied at collision energies as low as 30 eV/amu. Probabilities and cross sections for electron capture into different shells of the projectile are calculated using an ab initio approach which solves the time-dependent Schroedinger equation. The results are interpreted in terms of radial and rotational couplings between molecular orbitals. The probabilities exhibit strong Stueckelberg oscillations for charge transfer into shells with the principal quantum numbers n=2 and 3 due to radial coupling mechanisms in specific ranges of the impact parameter. The total cross sections for charge transfer, evaluated for a given shell, differ by orders of magnitude, as different isotopes are used in the collisions. The isotope effect increases significantly for decreasing n=3, 2, and 1. This finding is attributed to the influence of the rotational coupling mechanism, which is strongly affected by the distance of closest approach between the collision partners.
- OSTI ID:
- 21408831
- Journal Information:
- Physical Review. A, Journal Name: Physical Review. A Journal Issue: 5 Vol. 81; ISSN 1050-2947; ISSN PLRAAN
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
74 ATOMIC AND MOLECULAR PHYSICS
BETA DECAY RADIOISOTOPES
BETA-MINUS DECAY RADIOISOTOPES
CAPTURE
CHARGED PARTICLES
COLLISIONS
COUPLING
CROSS SECTIONS
DEUTERIUM
DIFFERENTIAL EQUATIONS
ELECTRON CAPTURE
ELEMENTS
ENERGY RANGE
EQUATIONS
EV RANGE
HELIUM IONS
HYDROGEN
HYDROGEN ISOTOPES
IMPACT PARAMETER
IONS
ISOTOPE EFFECTS
ISOTOPES
LIGHT NUCLEI
NONMETALS
NUCLEI
ODD-EVEN NUCLEI
ODD-ODD NUCLEI
PARTIAL DIFFERENTIAL EQUATIONS
PROBABILITY
QUANTUM NUMBERS
RADIOISOTOPES
SCHROEDINGER EQUATION
STABLE ISOTOPES
TIME DEPENDENCE
TOTAL CROSS SECTIONS
TRITIUM
WAVE EQUATIONS
YEARS LIVING RADIOISOTOPES
BETA DECAY RADIOISOTOPES
BETA-MINUS DECAY RADIOISOTOPES
CAPTURE
CHARGED PARTICLES
COLLISIONS
COUPLING
CROSS SECTIONS
DEUTERIUM
DIFFERENTIAL EQUATIONS
ELECTRON CAPTURE
ELEMENTS
ENERGY RANGE
EQUATIONS
EV RANGE
HELIUM IONS
HYDROGEN
HYDROGEN ISOTOPES
IMPACT PARAMETER
IONS
ISOTOPE EFFECTS
ISOTOPES
LIGHT NUCLEI
NONMETALS
NUCLEI
ODD-EVEN NUCLEI
ODD-ODD NUCLEI
PARTIAL DIFFERENTIAL EQUATIONS
PROBABILITY
QUANTUM NUMBERS
RADIOISOTOPES
SCHROEDINGER EQUATION
STABLE ISOTOPES
TIME DEPENDENCE
TOTAL CROSS SECTIONS
TRITIUM
WAVE EQUATIONS
YEARS LIVING RADIOISOTOPES