Table information for 'toss.legacy_data'

General

Table Description: A view on top of toss.data that has values in conventional units and with air wavelengths (rather than vacuum) between 2000 and 20000 Ångstrøm.

This table is not available for ADQL queries and through the TAP endpoint.

Resource Description: 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 table's resource, see Information on resource 'TOSS -- Tübingen Oscillator Strengths Service'

Citing this table

This table has an associated publication. If you use data from it, it may be appropriate to reference 2016A&A...587A..39R (ADS BibTeX entry for the publication) either in addition to or instead of the service reference.

To cite the table as such, we suggest the following BibTeX entry:

@MISC{vo:toss_legacy_data,
  year=2015,
  title={{TOSS} -- Tübingen Oscillator Strengths Service},
  author={Rauch, T. and Quinet, P. and Hoyer, D. and Werner, K. and Demleitner, M. and Kruk, J. W.},
  url={https://dc.zah.uni-heidelberg.de/tableinfo/toss.legacy_data},
  howpublished={{VO} resource provided by the {GAVO} Data Center},
  doi = {10.21938/3i01isnuCODnh1zjbCvuwA}
}

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."

Columns

Sorted by DB column index. [Sort alphabetically]

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
ion_stage Stage Ionisation stage N/A phys.atmol.ionStage
log_gf log(gf) Calculated HRF log(gf) (g -- statistical weight of the lower level; f -- oscillator strength) N/A phys.atmol.wOscStrength
ga gA Transition probability times the statistical weight of the upper level 1e9s**-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
par_init par_init Parity of the init level of the transition N/A phys.atmol.parity
j_init j_init Angular momentum quantum number of the init level of the transition. N/A phys.atmol.qn
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
par_final par_final Parity of the final level of the transition N/A phys.atmol.parity
j_final j_final Angular momentum quantum number of the final level of the transition. N/A phys.atmol.qn
pub Pub The publication this value originated from. N/A meta.bib

Columns that are parts of indices are marked like this.

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