Manual Jac Dist
User Manual:
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- Overview about JAC. Structure of this Manual
- Dirac's hydrogenic atom
- Many-electron atomic interactions, state functions, density operators and statistical tensors
- Electron-electron interaction
- Atomic potentials
- Multi-configuration Dirac-Hartree-Fock (MCDHF) method
- Atomic self-consistent-field and configuration-interaction calculations
- Atomic estimates of quantum-electrodynamic (QED) corrections
- Unitary jjJ-LSJ transformation of atomic states
- Atomic interaction amplitudes
- Atomic density operators
- Parity- and time-violating atomic interactions
- Atomic interactions with the radiation field
- Atomic amplitudes
- Atomic properties
- In JAC implemented level properties
- In JAC partly-implemented level properties
- Energy shifts in plasma environments (PlasmaShift)
- Lande gJ factors and Zeeman splitting of fine-structure levels (LandeZeeman)
- Lande gF factors and Zeeman splitting of hyperfine levels (LandeZeeman)
- Sensitivity of level energies with regard to variations of (AlphaVariation)
- Level-dependent fluorescence and Auger yields (DecayYield)
- Further properties, not yet considered in JAC
- Approximate many-electron Green function for atomic levels (GreenFunction)
- Multipole polarizibilities (MultipolePolarizibility)
- Dispersion coefficients
- Stark shifts and ionization rates in static electric fields
- Dressed atomic (Floquet) states and quasi-energies in slowly varying laser fields
- Fano profiles of continuum-embedded resonances
- Light shifts of atomic levels
- Frequency-dependent ac Stark shifts of atomic levels
- Black-body radiation shifts
- Hyperpolarizibility
- Other topics, related to atomic properties
- Laser cooling, precision spectroscopy and quantum control
- Atomic clocks
- Atomic partition functions
- Atom-atom and atom-ion interaction potentials
- Dispersive interactions in liquid and solids
- Transport coefficients for ion mobility and diffusion in gases
- Polarizibility and optical absorbance of nanoparticles
- Laser-produced plasma
- Plasma diagnostics
- Radial distribution functions for plasma and liquid models
- Average-atom model for warm-dense matter
- Equation-of-state relations for astro physics and condensed matter
- Radiation damage of DNA by electron impact
- Exotic atoms and ions
- Atomic processes
- In JAC implemented processes
- Photo-emission. Transition probabilities (Radiative)
- Photo-excitation (PhotoExcitation)
- Atomic photoionization (PhotoIonization)
- Radiative recombination (PhotoRecombination)
- Auger processes (Auger)
- Dielectronic recombination (Dielectronic)
- Photoexcitation & fluorescence (PhotoExcitationFluores)
- Photoexcitation & autoionization (PhotoExcitationAutoion)
- Rayleigh & Compton scattering of light (RayleighCompton)
- Multi-photon excitation and decay (MultiPhotonDeExcitation)
- Coulomb excitation (CoulombExcitation)
- In JAC partly-implemented processes
- Photoionization & fluorescence (PhotoIonizationFluores)
- Photoionization & autoionization (PhotoIonizationAutoion)
- Dielectronic recombination & fluorescence (DielectronicFluores)
- Electron-impact (de-) excitation (ImpactExcitation)
- Electron-impact excitation & autoionization (ImpactExcitationAutoIon)
- Radiative-Auger decay (RadiativeAuger)
- Multi-photon ionization (MultiPhotonIonization)
- Multi-photon double ionization (MultiPhotonDoubleIon)
- Internal conversion (InternalConversion)
- Electron capture with nuclear decay
- Further processes, not yet considered in JAC
- Other topics closely related to atomic processes
- Atomic database from the literature
- Codes which require atomic data input
- Radiative opacity
- Opacities for astrophysical matter clouds
- Absorption spectra of distinct astrophysical objects
- Ionization equilibria in astrophysical sources
- Photoionized, steady-state plasma
- Plasma light sources for nanolithography
- Synthetic spectra for laser-induced breakdown spectroscopy (LIBS)
- X-ray absorption of solid-state materials
- X-ray quantum optics
- Decay of medical radioisotopes
- Configuration-averaged energies and cross sections
- Mass attenuation coefficients
- In JAC implemented processes
- Atomic cascades
- Field- and collision-induced atomic responses
- Time-evoluation of many-electron atomic state functions and density matrices
- Semiempirical estimates
- Beams of light and particles
- Helmholtz wave equation
- Light beams
- Gaussian beams
- Vortex beams. Characterization and properties
- Vortex beams. Generation
- Hermite-Gaussian beams
- Laguere-Gauss beams
- Bessel beams
- Airy beams
- Necklace ring beams
- Light beams with non-integer OAM
- Vector beams
- Traktor beams
- Polarization radiation
- Manipulation of optical beams
- Optical forces of vortex beams
- Application of optical (vortex) beams
- Electron beams
- References
- Index