Information on Service 'Tübingen Oscillator Strengths Service Form Interface'

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This service provides oscillator strengths and transition probabilities. Mainly based on experimental energy levels, these were calculated with the pseudo-relativistic Hartree-Fock method including core-polarization corrections.

For a list of all services and tables belonging to this service's resource, see Information on resource 'TOSS -- Tübingen Oscillator Strengths Service'

Overview

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This service is not published. This can mean that it was deemed too unimportant, for internal use only, or is just a helper for a published service. Equally likely, however, it is under development, abandoned in development or otherwise unfinished. Exercise caution.

Other services provided on the underlying data include:

Input Fields

The following fields are available to provide input to the service (with some renderers, some of these fields may be unavailable):

NameTable Head DescriptionUnitUCD
c_wavelength Lambda_c Conventional wavelength of the transition. This is the air wavelength between 2000 and 20000 Angstrom, the vacuum wavelength otherwise. Angstrom em.wl;phys.atmol.transition
chemical_element Atomic Number or Element Element transitioning N/A phys.atmol.element
ion_stage Stage Ionisation stage N/A phys.atmol.ionStage
log_gf log(gf) Calculated HFR log(gf) (g -- statistical weight of the lower level; f -- oscillator strength) N/A phys.atmol.wOscStrength

Default Output Fields

The following fields are contained in the output by default. More fields may be available for selection; these would be given below in the VOTable output fields.

NameTable Head DescriptionUnitUCD
c_wavelength Lambda_c Conventional wavelength of the transition. This is the air wavelength between 2000 and 20000 Angstrom, the vacuum wavelength otherwise. Angstrom em.wl;phys.atmol.transition
chemical_element Element Element transitioning N/A phys.atmol.element
final_level_energy E_final Energy of the level the atom or molecule ends up in. cm**-1 phys.energy;phys.atmol.final;phys.atmol.level
ga gA Transition probability times the statistical weight of the upper level 1e9 s**-1 phys.atmol.transProb
initial_level_energy E_init Energy of the level the atom or molecule starts in. cm**-1 phys.energy;phys.atmol.initial;phys.atmol.level
ion_stage Stage Ionisation stage N/A phys.atmol.ionStage
j_final j_final Angular momentum quantum number of the final level of the transition. N/A phys.atmol.qn
j_init j_init Angular momentum quantum number of the init level of the transition. N/A phys.atmol.qn
log_gf log(gf) Calculated HFR log(gf) (g -- statistical weight of the lower level; f -- oscillator strength) N/A phys.atmol.wOscStrength
par_final par_final Parity of the final level of the transition N/A phys.atmol.parity
par_init par_init Parity of the init level of the transition N/A phys.atmol.parity
pub Pub The publication this value orginated from. N/A meta.bib

VOTable Output Fields

The following fields are available in VOTable output. The verbosity level is a number intended to represent the relative importance of the field on a scale of 1 to 30. The services take a VERB argument. A field is included in the output if their verbosity level is less or equal VERB*10.

NameTable Head DescriptionUnitUCD Verb. Level
c_wavelength Lambda_c Conventional wavelength of the transition. This is the air wavelength between 2000 and 20000 Angstrom, the vacuum wavelength otherwise. Angstrom em.wl;phys.atmol.transition 1
chemical_element Element Element transitioning N/A phys.atmol.element 1
ion_stage Stage Ionisation stage N/A phys.atmol.ionStage 1
log_gf log(gf) Calculated HFR log(gf) (g -- statistical weight of the lower level; f -- oscillator strength) N/A phys.atmol.wOscStrength 1
ga gA Transition probability times the statistical weight of the upper level 1e9 s**-1 phys.atmol.transProb 1
par_init par_init Parity of the init level of the transition N/A phys.atmol.parity 1
j_init j_init Angular momentum quantum number of the init level of the transition. N/A phys.atmol.qn 1
par_final par_final Parity of the final level of the transition N/A phys.atmol.parity 1
j_final j_final Angular momentum quantum number of the final level of the transition. N/A phys.atmol.qn 1
initial_level_energy E_init Energy of the level the atom or molecule starts in. cm**-1 phys.energy;phys.atmol.initial;phys.atmol.level 15
final_level_energy E_final Energy of the level the atom or molecule ends up in. cm**-1 phys.energy;phys.atmol.final;phys.atmol.level 15
pub Pub The publication this value orginated from. N/A meta.bib 15

Copyright, License, Acknowledgements

When publishing research making use of this tool, please acknowledge: "The TOSS service (http://dc.g-vo.org/TOSS) used for this paper was constructed as part of the activities of the German Astrophysical Virtual Observatory."

VOResource XML (that's something exclusively for VO nerds)