Databases » EXFOR ENDF CINDA IBANDL Medical PGAA NGAtlas RIPL FENDL IRDFF

International Reactor Dosimetry and Fusion File
IRDFF v.1.04, June 24, 2014

(Cross-section data supersede IRDF-2002 and IRDFF-V1.02)

IAEA Coordinator: A.Trkov

IRDFF REFERENCES:
R. Capote, K.I. Zolotarev, V.G. Pronyaev, and A. Trkov
Journal of ASTM International (JAI)- Volume 9, Issue 4, April 2012, JAI104119
E.M.Zsolnay, R. Capote, H.K. Nolthenius, and A. Trkov
Technical report INDC(NDS)-0616, IAEA, Vienna, 2012.


The International Reactor Dosimetry and Fusion File (IRDFF-v1.04) is a standardized evaluated cross section library of neutron dosimetry reactions and uncertainty information that supersedes the widely used IRDF-2002 library. The new IRDFF library contains cross section data and related decay data for 91 dosimetry reactions, and absorption data for three cover materials B, Cd and Gd used for suppressing the themal neutron spectrum in the irradiation of some material samples.

The library can be used in a broad range of applications from lifetime management and assessments of nuclear power reactors and other neutron metrology applications such as boron neutron capture therapy, therapeutic use of medical isotopes, nuclear physics measurements, and reactor safety applications. Library evaluations are based mainly on comprehensive experimental data, therefore the reaction library also represents an ideal benchmark collection for validation and improvement of theoretical nuclear reaction modelling.

    Changes in v1.04:
  • The error of missing ZAP designation of the product nuclides in MF10/MT5 of Ti47, Ti48 and Ti49 was corrected. No other changes to the data were made.

    Changes in v1.03:
  • New evaluations for Fe54(n,2n), In115(n,g)In116m, Nb93(n,g), Ni58(n,2n), U238(n,2n)
  • Extension of evaluated Tm169(n,2n) cross sections to 60 MeV
  • Change of interpolation flags in the Cf252 spontaneous fission neutron spectrum
  • Correction of minor errors

    Changes in v1.02:
  • Tm169(n,2n) in the whole energy range
  • Li-6(n,t); F-19(n,2n); Ni-60(n,p); Cu-63(n,a); Cu-63(n,2n); Cu-65(n,2n); and Zn-64(n,p) above 20 MeV

IRDFF data files (current version version 1.04, June 24, 2014)


IRDFF data web retrieval


Plots of IRDFF cumulative reaction rate integrals in reference neutron spectra (IRDFF v1.03)

  • Listing of thermal cross section values and uncertainties from IRDFF-v1.03
  • Listing and plots of IRDFF cumulative reaction rate integrals in a thermal neutron spectrum. Note that the spectrum is normalised to 2/sqrt(Pi) for comparison with the thermal value (see above). The remaining difference is due to the Westcott factor.
  • Listing and plots of IRDFF cumulative reaction rate integrals in a 1/E neutron spectrum in the range 0.55 eV to 2 MeV
  • Listing and plots of IRDFF cumulative reaction rate integrals in a 30 keV Maxwellian neutron spectrum
  • Listing and plots of IRDFF cumulative reaction rate integrals in Cf252(sf) neutron spectrum

IRDFF neutron spectra (Version 1.03)

The IRDFF library includes the neutron spectra listed below. The fission spectra taken from evaluated files were converted from MF5,MF35/MT18 to MF3,MF33/MT261 representation, respectively (ENDF file convention).
  • MAT = 9228: Prompt fission neutron spectrum for U-235(n_th,f) (ENDF-B/VII.1)
  • MAT = 9861: Prompt fission neutron spectrum for Cf-252(sf) (Reich,Mannhart,Englad evaluation for ENDF/B-V, carried over to ENDF/B-VII.1, interpolation law changed)
  • MAT = 9862: Prompt fission neutron spectrum for U-235(n_th,) (ENDF-B/VII.0, interpolation law changed to log)
  • MAT = 9865: Prompt fission neutron spectrum for U-235(n_th,f) (JENDL-4, interpolation law changed to log)
  • MAT = 9901: Maxwellian at T=0.0253 eV (1.E-5 - 0.55 eV)
  • MAT = 9902: Epithermal pure 1/E spectrum (0.55 eV - 2 MeV)
  • MAT = 9903: Maxwellian at T=30 keV (MACS in astrophysics)

Links to the spectra in 640-group form are available from the shortcuts on the right-handside and include the dummy spectrum 9900, which simulates the thermal point. For 1/v absorbers the cross sections at 0.0253 eV are reconstructed exactly with this spectrum.

Verification

    File integrity and consistency was checked with the standard ENDF Utility codes and the local COVEIG code with the following results:
  • CHECKR did not report any errors.
  • FIZCON found two correlation coefficients in Cr-52(n,2n) reaction that exceed unity by no more than 3E-4.
  • COVEIG checked the eigenvalues of the covariance matrices. The code has some limitations, which are reported in the listing (particularly related to cross-covariances between reactions and materials, but in the bulk of the data that were analysed, only three cases were found where the eigenvalues were very slightly negative, as shown in the summary.



Validation

Preliminary validation of data is described in the IAEA Technical Report INDC(NDS)-0616
A new Co-ordinated Research Project on "Testing and Improving the IAEA International Dosimetry Library for Fission and Fusion (IRDFF)" has been initiated to validate and test the IRDFF library. Additional information on this new CRP is available here.

Codes

    The following codes were used for IRDFF library validation:
  • RR_UNC Calculates uncertainties in reaction rates and cross sections.
  • COVEIG Calculates eigenvalues of covariance matrices in an ENDF file.

 Last Updated: 06/24/2014 08:12:14