Edges energies: Table of Isotopes, CD-ROM, 8th edition, Version 1.0, March 1996 Richard B Firestone S Y Frank Chu, CD-ROM Editor Virginia S Shirley, Editor Wiley-Interscience Total cross sections, fluorescent yields, jump ratios: W.T. Elam, B.D. Ravel, J.R. Sieber,"A new database for X-Ray spectroscopic calculations", Radiation Physics and Chemistry, 63, pp. 121-128, 2002. Elastic scattering: D.E. Cullen, J.H. Hubbell, J.H. Kissel, EPDL97: The evaluated photon library, '97 Version. Lawrence Livermore National Laboratory Report UCRL-50400, vol. 6 Rev 5. Inelastic scattering: J H Hubbell, W J Veigele, E A Briggs, R T Brown, D T Cromer, and R J Howerton, "UD "Atomic form factors, incoherent scattering functions, and photon scattering cross sections", J. Phys. Chem. Ref. Data, Vol. 4, No. 3, pag 471, 1975. Coster-Kronig transition probability: X-Ray Fluorescence Cross Sections for K and L X-Rays of the Elements M.O. Krause, C.W. Nestor, Jr., C.J. Sparks, Jr. and E. Ricci ORNL-5399, pag 120, 1978 fluor_lines.dat =============== This x-ray transition table provides the energies (in eV) for K transitions connecting the K shell (n = 1) to the shells with principal quantum numbers n = 2 to 4 and L transitions connecting the L1, L2, and L3 shells (n = 2) to the shells with principal quantum numbers n = 3 and 4. The elements covered include Z = 10, neon to Z = 100, fermium. Reference: R.D. Deslattes, E.G. Kessler Jr., P. Indelicato, L. de Billy, E. Lindroth, J. Anton, J.S. Coursey, D.J. Schwab, K. Olsen, and R.A. Dragoset (2003) X-ray Transition Energies (version 1.0). [Online] Available: http://physics.nist.gov/XrayTrans [2003, October 16]. National Institute of Standards and Technology, Gaithersburg, MD. Originally published as: R.D. Deslattes, E.G. Kessler, Jr., P. Indelicato, L. de Billy, E. Lindroth, and J. Anton, "X-ray transition energies: new approach to a comprehensive evaluation," Rev. Mod. Phys. 75, 35-99 (2003). The data in this tabulation corresponds to the experimental values given in table 5 of the cited publication. If the experimental value is not available, it has been substituted by the theoretical value in the same table. In addition, values for Z=3-9 for KL3 (Ka1) have been added from: X-Ray Data Booklet Section 1.2 X-RAY EMISSION ENERGIES Jeffrey B. Kortright and Albert C. Thompson http://xdb.lbl.gov/Section1/Sec_1-2.html Column label: The x-ray transition in IUPAC Notation radrate.dat =========== X-ray emission rates for K and L shells The data contained are in tables 13 and 14 of: X-Ray Fluorescence Cross Sections for K and L X Rays of the elements M. O. Krause, C. W. Nestor, C. J. Sparks and E. Ricci ORNL-5399 (1978) which cites: [4] J.H. Scofield, Phys. Rev. A 9, 1041 (1974) [5] J.H. Scofield, Phys. Rev. A 10, 1507 (1974) [6] J.H. Scofield, Phys. Rev. A 12, 345 (1975) [7] J.H. Scofield, in ATomic Intershell Processes, B, Crasemann,Ed. vol. 1, Academic Press, 1975, chap. 6. [8] Values for elements not listed in refs. 4-7 were interpolated with the aid of Scofield's relativistic Hartree-Slater predictions [At. Data Nucl. Data Tables 14, 121 (1974)] Labels are in iupac notation. Only radiation rates affecting single transition (not blended lines, ie. L1L23, L1O23 and L3N45 are present in Krause but they are not included in our tabulation) are used: iupac siegbahn K-shell: KL3 Ka1 KL2 Ka2 (calculated as KL23-KL3 in the tables) KM3 Kb1 KM2 Kb3 (calculated as KM23-KM3 in the tables) L-shell: L3M5 La1 L2M4 Lb1 L1M3 Lb3 L2N4 Lg1 L3M1 Ll fi.dat ====== Anomalous scattering factor fi. Taken from D.E. Cullen, J.H. Hubbell, J.H. Kissel, EPDL97: The evaluated photon library, '97 Version. Lawrence Livermore National Laboratory Report UCRL-50400, vol. 6 Rev 5. kissel_pe.dat ============= Partial and Total Photoelectric cross sections. This data set contains data calculated by Lynn Kissel (lkissel@llnl.gov). The original data is available from ftp://www-phys.llnl.gov/rayleigh and an interactive WWW interface is in http://www-phys.llnl.gov/V_Div/scattering/elastic.html For more information consult the references mentioned in the previous paragraph. Refractive indices ================== The real (1-delta) and imaginary (beta) part of the refractive indices are calculated according to the formulas that can be found for example in the PhD thesises of Peter Cloetens, Carsten Raven and Timm Weitkamp Compton profiles ================ Calculated by Biggs et al: Hartree-Fock Compton profiles for the elements Atomic Data and Nuclear Data Tables 16, 201-309 (1975) Taken from the LSCAT extension to the EGS4 program from Namito et al Atomic level widths =================== The data contained within atomiclevelswidth.dat were obtained from Campbell and Papp's paper "Widths of the atomic K-N7 levels", Atomic Data and Nuclear Data Tables (2001) Non-radiative (Auger) rates =========================== Taken from the EADL97 database. Originally published by Chen and Crasemann in their papers "Relativistic radiationless tranqition probabilities for atomic K- and L-shells", Atomic Data and Nulear Data Tables (1979) and "Relativistic M-shell radiationless transitions", Physical Review A (1980) Crystal structures ================== Taken from XOP with kind permissions from Manuel Sanchez del Rio. CS_Energy.dat ============= Mass energy-absorption coefficients. Values are taken from NIST (http://physics.nist.gov/PhysRefData/XrayMassCoef/tab3.html), as calculated by S.M. Seltzer (Radiation Research 136, 147 (1993)). NIST compound composition database and element densities (densities.dat) ======================================================================== Taken from http://physics.nist.gov/cgi-bin/Star/compos.pl using the nist-compounds.pl script Fluorescence yields and Coster-Kronig transition probabilities ============================================================== Initial data taken from: M. Krause, C. Nestor Jr., C. Sparks Jr., and E. Ricci. X-ray fluorescence cross sections for K and L X-rays of the elements ORNL-5399. Technical report, Oak-Ridge National Laboratory, 1978. Some of the values have been replaced with newer values from * J. Campbell. Fluorescence yields and Coster–Kronig probabilities for the atomic L subshells. Part II: The L1 subshell revisited. At. Data Nucl. Data Tables, 95(1):115–124, 2009. * V. Ayri, S. Kaur, A. Kumar, M. Czyzycki, A. Karydas, and S. Puri. Experimental evidence for onset of l 1–l 3 m 5 transition at z= 75 through measurements of fluorescence and coster–kronig yields for w and re. Journal of Analytical Atomic Spectrometry, 36(2):380–389, 2021. * S. Kaur, V. Ayri, A. Kumar, M. Czyzycki, A. G. Karydas, and S. Puri. Experimental validation of theoretically predicted cut-off of L1-L3M4,5 transitions at Z= 50 through measurements of fluorescence and coster-kronig yields for Sn and Sb. Metrologia, 2021. Radionuclides ============= Taken from http://ie.lbl.gov/toi using the nuclices.pl script