IRON Project: publications

Series: Atomic data from the IRON Project

  1. Goals and methods.
    Hummer D.G., Berrington K.A., Eissner W., Pradhan A.K., Saraph H.E., Tully J.A. 1993, A&A 279, 298. Abstract, Paper
  2. Effective collision strengths for infrared transitions in carbon-like ions.
    Lennon D.J., Burke V.M. 1994, A&AS 103, 273. Abstract, Paper
  3. Rate coefficients for electron impact excitation of Boron-like ions: Na VI, Mg VIII, Al IX, Si X, S XII, Ar XIV, Ca XVI and Fe XXII.
    Zhang H.L., Graziani M., Pradhan A.K. 1994, A&A 283, 319. Abstract, Paper
  4. Electron excitation of the 2Po3/2 -- 2Po1/2 fine structure transition in fluorine-like ions.
    Saraph H.E., Tully J.A. 1994, A&AS 107, 29. Abstract, Paper
  5. Effective collision strengths for transitions in the ground configuration of oxygen-like ions.
    Butler K., Zeippen C.J. 1994, A&AS 108, 1. Abstract, Paper
  6. Collision strengths and rate coefficients for Fe II.
    Zhang H.L., Pradhan K.A. 1995, A&A 293, 953. Abstract, Paper
  7. Radiative transition probabilities for Fe II.
    Nahar S.N. 1995, A&A 293, 967. Abstract, Paper
  8. Electron excitation of the 3d4 5Dj ground state fine structure transition in Ti-like ions V II, Cr III, Mn IV, Fe V, Co VI and Ni VII.
    Berrington K.A. 1995, A&AS. 109, 193. Abstract, Paper
  9. Electron excitation of the 2Po3/2 - 2Po1/2 fine structure transitions in chlorine-like ions from Ar II to Ni XII.
    Pelan J.C., Berrington K.A. 1995, A&AS 110, 209. Abstract, Paper
  10. Effective collision strengths for infrared transitions in silicon- and sulphur-like ions.
    Galavís M.E., Mendoza C., Zeippen J.C. 1995, A&AS 111, 347. Abstract, Paper
  11. The 2Po1/2 - 2Po3/2 fine-structure lines of Ar VI, K VII and Ca VIII.
    Saraph H.E., Storey P.J. 1996, A&AS 115, 151. Abstract, Paper
  12. Electron excitation of forbidden transitions in V-like ions Mn III, Fe IV, Co V, and Ni VI.
    Berrington K.A., Pelan J.C. 1995, A&AS 114, 367. Abstract, Paper
  13. Electron excitation rates and emissivity ratios for forbidden transitions in Ni II and Fe II.
    Bautista M.A., Pradhan A.K. 1996, A&AS 115, 551. Abstract, Paper
  14. Electron impact excitation for the Fe XIV fine-structure transition 2Po1/2 - 2Po3/2.
    Storey P.J., Mason H.E., Saraph H.E. 1996, A&A 309, 677. Abstract, Paper
  15. Electron excitation of the fine-structure transitions in hydrogen-like ions He II and Fe XXVI.
    Kisielius R., Berrington K.A., Norrington P.H. 1996, A&AS 118, 157. Abstract, Paper
  16. Photoionization cross sections and oscillator strengths for Fe V.
    Bautista M.A. 1996, A&AS 119, 105. Abstract, Paper
  17. Radiative transition probabilities for dipole allowed and forbidden transitions in Fe III.
    Nahar S.N., Pradhan A.K. 1996, A&AS 119, 509. Abstract, Paper
  18. Electron impact excitation collision strengths and rate coefficients for Fe III.
    Zhang H.L. 1996, A&AS 119, 523. Abstract, Paper
  19. Radiative transition probabilities for forbidden lines in Fe II.
    Quinet P., Le Dourneuf M., Zeippen C.J. 1996, A&AS 120, 361. Abstract, Paper
  20. Photoionization cross sections and oscillator strengths for Fe I.
    Bautista M.A. 1997, A&AS 122, 167. Abstract, Paper
  21. Electron excitation of fine-structure transitions involving the 3d64s2 5D ground state and the 3d74s 5F metastable state of Fe I.
    Pelan J.C., Berrington K.A. 1997, A&AS 122, 177. Abstract, Paper
  22. Radiative rates for forbidden transitions within the ground state configurations of ions in the carbon and oxygen isoelectronic sequences.
    Galavís, Mendoza C., Zeippen J.C. 1997, A&AS 123, 159. Abstract, Paper
  23. Relativistic excitation rate coefficients for Fe XXII with inclusion of radiation damping.
    Zhang H.L., Pradhan A.K., 1997, A&AS 123, 575. Abstract, Paper
  24. Electron excitation of Li-like Fe XXIV between the n=2 and n'=2,3,4 fine-structure levels.
    Berrington K.A., Tully J.A. 1997, A&AS 126, 105. Abstract, Paper
  25. Electron impact excitation of fine-structure transitions in the ground state configuration of Fe XII.
    Binello A.M., Mason H.E., Storey P.J. 1998, A&AS 127, 545. Abstract, Paper
  26. Photoionization cross sections and oscillator strengths for Fe IV.
    Bautista M.A., Pradhan A.K. 1997, A&AS 126, 365. Abstract, Paper
  27. Electron impact excitation collision strengths and rate coefficients for Fe IV.
    Zhang H.L., Pradhan A.K. 1997, A&AS 126, 373. Abstract, Paper
  28. Electron excitation of the 2Po3/2 --> 2Po1/2 fine structure transition in fluorine-like ions at higher temperatures.
    Berrington K.A., Saraph H.E., Tully J.A. 1998, A&AS 129, 161. Abstract, Paper
  29. Radiative rates for transitions within the n=2 complex in ions of the boron isoelectronic sequence.
    Galavís M.E., Mendoza C., Zeippen C.J. 1998, A&AS 131, 499. Abstract, Paper
  30. Collisional rates for the 2Po1/2 - 2Po3/2 fine-structure lines of P III, S IV and Cl V.
    Saraph H.E., Storey P.J. 1999, A&AS 134, 369. Abstract, Paper
  31. Electron impact excitation of optically allowed and intercombination electric dipole transitions in Fe XII.
    Binello A.M., Mason H.E., Storey P.J. 1998, A&AS 131, 153. Abstract, Paper
  32. On the accuracy of the effective collision strength for the electron impact excitation of the quadrupole transition in Ar III.
    Galavís M.E., Mendoza C, Zeippen C.J. 1998, A&AS 133, 245. Abstract, Paper
  33. Radiative rates for the intercombination transitions in the carbon isoelectronic sequence.
    Mendoza C., Zeippen C.J., Storey P.J. 1999, A&AS 135, 159. Abstract, Paper
  34. Electron impact excitation of Fe XVI.
    Eissner W., Galavís M.E., Mendoza C., Zeippen C.J. 1999, A&AS 136, 385. Abstract, Paper
  35. Relativistic fine structure oscillator strengths for Fe XXIV and Fe XXV.
    Nahar S.N., Pradhan A.K. 1999, A&AS 135, 347. Abstract, Paper
  36. Electron excitation of Be-like Fe XXIII between 1s22l1 2l2 SLJ and 1s22l32l4 S'L'J'.
    Chidichimo M.C., Zeman V., Tully J.A., Berrington K.A. 1999, A&AS 137, 175; errata, 2000, ibid, 143, 541. Abstract, Paper, Errata
  37. Electron impact excitation collision strenths and rate coefficients for Fe VI.
    Guo Xin Chen, Pradhan A.K. 1999, A&AS 136, 395. Abstract, Paper
  38. Electron Impact excitation of fine-structure transitions in the n=3 complex of Fe XV.
    Eissner W., Galavís M.E., Mendoza C., Zeippen C.J. 1999, A&AS 137, 165. Abstract, Paper
  39. Photoionization Cross Sections and Oscillator Strengths for Ni II.
    Bautista M.A., 1999, A&AS 137, 529. Abstract, Paper
  40. Electron impact excitation of the Fe XIV EUV transitions.
    Storey P.J., Mason H.E., Young P.R. 2000, A&AS 141, 285. Abstract, Paper
  41. Electron excitation rates among the 3d2 fine-structure levels of Ca-like Fe VII.
    Berrington K.A., Nakazaki S., Norrington P.H. 2000, A&AS 142, 313. Abstract, Paper
  42. Electron impact excitation of Fe XXI.
    Butler K., Zeippen C.J. 2000, A&AS 143, 483. Abstract, Paper
  43. Transition Probilities for Fe V.
    Nahari S.N., Delahaye F., Pradhan K.A., C.J. Zeippen C.J. 2000, A&AS 144, 141. Abstract, Paper
  44. Transition probabilities and line rations for Fe VI with fluorescent excitation in planetary nebulae.
    Guo Xin Chen, Pradhan A.K. 2000, A&AS 147, 111. Abstract, Paper
  45. Relativistic transition probabilities for carbon-like Ar XIII and Fe XXI using Breit-Pauli R-matrix method.
    Nahar S.N. A&AS 147, 253. Abstract, Paper
  46. Electron excitation of 3s3p6 and 3s23p43d fine-structure transitions in Fe X.
    Pelan J.C., Berrington K.A. 2001, A&A 365, 258. Abstract, Paper
  47. Electron impact excitation of Ni III.
    Bautista M.A. 2001, A&A 365, 268. Abstract, Paper
  48. Electron excitation of the 2s2p6 and 2s22p43l fine-structure transitions of Fe XVIII.
    Berrington K.A., Pelan C., A&A (submitted).
  49. Electron impact excitation of Fe XX.
    Butler K., Zeippen C.J. 2001, A&A 372, 1078. Abstract, Paper
  50. Electron impact excitation of Fe XIX.
    Butler K., Zeippen C.J. 2001, A&A 372, 1083. Abstract, Paper
  51. Electron impact excitation of Fe IX.
    Storey P.J., Zeippen C.J., Le Dourneuf M. 2002, A&A 394, 753. Abstract, Paper
  52. Electron excitation of Ni+24.
    Chidichimo M.C., Badnell N.R., Tully J.A. 2003, A&A 401, 1177. Abstract, Paper
  53. Relativistic allowed and forbidden transition probabilities for Fe XVII.
    Nahar S.N., Eissner W., Chen G.-X., Pradhan A.K. 2003, A&A 408, 789. Abstract, Paper
  54. Relativistic calculations for allowed and forbidden fine structure transitions in Fe XX.
    Nahar S.N. 2004, A&A 413, 779. Abstract, Paper
  55. Electron impact excitation of Ni II.
    Bautista M.A. 2004, A&A 420, 763. Abstract, Paper
  56. Electron excitation of Be-like Fe XXIII for the n = 2,3,4 configurations.
    Chidichimo M.C., Del Zanna G., Mason H.E., Badnell N.R., Tully J.A., Berrington K.A. 2005, A&A, 430, 331. Abstract, Paper
  57. Radiative transition rates and collision strengths within the 3d7 configuration of Ni IV.
    Meléndez M., Bautista M.A. 2005, A&A 436, 1123. Abstract, Paper
  58. Electron impact excitation of Fe XII.
    Storey P.J., Del Zanna G., Mason H.E., Zeippen C.J. 2005, A&A 433, 717. Abstract, Paper
  59. New radiative transition probabilities for Fe IV including fine structure.
    Nahar S.N., Pradhan A.K. 2005, A&A 437, 345. Abstract, Paper
  60. Electron-impact excitation of n = 3, 4 levels of Fe17+.
    Witthoeft M.C., Badnell N.R., del Zanna G., Berrington K.A., Pelan J.C., 2006, A&A 446, 361. Abstract, Paper
  61. Radiative E1, E2, E3, and M1 transition probabilities for Fe IV.
    Nahar, S.N. 2006, A&A 448, 779. Abstract, Paper
  62. Allowed and forbidden transitions in Fe XVIII in relativistic Breit-Pauli approximation.
    Nahar, S.N. 2006, A&A 457, 721. Abstract, Paper
  63. Electron-impact excitation of Fe19+ up to n = 4.
    Witthoeft M.C., Del Zanna G., Badnell N.R. 2007, A&A 466, 763. Abstract, Paper
  64. Radiative transition rates and collision strengths for Ca II.
    Meléndez M., Bautista M.A., Badnell N.R. 2007, A&A 469, 1203. Abstract, Paper
  65. Electron-impact excitation of Fe6+.
    Witthoeft M.C., Badnell N.R. 2008, A&A 481, 543. Abstract, Paper
  66. Electron impact excitation of Fe18+.
    Butler K., Badnell N.R. 2008, A&A 469, 1369. Abstract, Paper

Miscellaneous papers

  1. New atomic data for the Fe XII coronal ion
    Binello A.M., Mason H.E., Storey P.J. 1997, Adv. Space. Res. 20, 2263. Abstract
  2. Ly alpha Flourescent Excitation of Fe II in Active Galactic Nuclei
    Sigut T.A.A., Pradhan A.K. 1998, ApJ 499, L139. Abstract
  3. Resonance-averaged Photoionization Cross Sections for Astrophysical Models
    Bautista M.A., Romano P., Pradhan A.K. 1998, ApJS 118, 259. Abstract
  4. The Importance of Fe I as a Continuous Opacity Source in the Solar Atmosphere
    Bell R.A., Balachandran S.C., Bautista M. 2001, ApJ 546, L65. Abstract
  5. Implementing TOPbase/Iron Project: continuous absorption from FeII.
    Cowley C.R., Bautista M. 2003, MNRAS 341, 1226. Abstract
  6. Predicted Fe II Emission-Line Strengths from Active Galactic Nuclei
    Sigut T.A.A., Pradhan, A.K. 2003, ApJS 145, 15. Abstract

Reviews

  1. Summary of the Iron and Opacity Projects.
    Berrington K.A. 1995, in Astrophysical Applications of Powerful New Databases, ASP Conference Series, Vol. 78, S.J. Adelman, W.L. Wiese (eds), Astronomical Society of the Pacific, San Francisco, California, p.19. Abstract
  2. The Opacity Project and the Iron Project.
    Pradhan A.K. 1996, in Astrophysics in the extreme ultraviolet, S. Bowyer, R.F. Malina (eds), Kluwer Academic Publ., Dordrecht, p.569. Abstract
  3. The Iron Project: Atomic Data for Fe I-Fe VI.
    Bautista M.A., Nahar S.N., Peng J., Pradhan A.K., Zhang, H.L. 1996, in Astrophysics in the extreme ultraviolet, S. Bowyer, R.F. Malina (eds), Kluwer Academic Publ., Dordrecht, p.577. Abstract
  4. Astrophysical applications of the Iron Project: Ionization structure and spectra of iron in nebulae.
    Bautista M.A., Pradhan A.K. 1997, in Planetary nebulae, H.J. Habing, H.J.G.L.M. Lamers (eds), Kluwer Academic Publishers, Dordrecht, p. 209. Abstract
  5. The Iron Project: Past, Present, and Future.
    Butler, K. 1998, in Atomic and Molecular Data and their Applications, P.J. Mohr, W.L. Wiese (eds), AIP Conference Proceedings, vol. 434, p.23 Abstract
  6. Oscillator Strengths and Radiative Transition Probabilities from the IRON Project.
    Zeippen C.J. 2000, in Atomic and Molecular Data and their Applications, K.A. Berrington, K.L. Bell (eds), AIP Proceedings, vol. 543, p.2691 Abstract
  7. The Iron Project and TIPTOPbase: Atomic Data and Opacities for Astrophysics.
    Nahar S.N. 2003, in Planetary Nebulae: Their Evolution and Role in the Universe, S. Kwok, M. Dopita, R. Sutherland (eds). Astronomical Society of the Pacific, p.335 Abstract
  8. Non-LTE Revisited
    Przybilla N., Butler K., Becker S.R., Kudritzki R.P. 2004, in Origin and Evolution of the Elements, Carnegie Observatories Astrophysics Series, Vol. 4, A. McWilliam, M. Rauch (eds), Home page. Abstract
TIPbase TOPbase Opacity Project Iron Project