Nifs database information

What's New:
  1. Storey, P.J.$Sochi, T. - Mon. Not. R. Astron. Soc. 459 2558-2565 (2016) - Collision strengths and transition probabilities for Co III forbidden lines[AMDIS EXC]
  2. Nahar, S.N.$Shafique, B. - Eur. Phys. J. D 77 45 (2023) - Collisional excitation and photoexcitation of Ca IV including a strong 3.2 micrometer emission line[AMDIS EXC]
  3. Blondin, S. et al. - Astron. & Astrophys. 678 A170 (2023) - Nebular spectra from Type Ia supernova explosion models compared to JWST observations of SN 2021aefx[AMDIS EXC]
  4. Del Zanna, G.$Storey, P.J. - Astron. & Astrophys. 543 A144 (2012) - Atomic data for astrophysics: Fe XIII soft X-ray lines [AMDIS EXC]
  5. Umer, H. et al. - Atomic Data and Nuclear Tables 154 101586 (2023) - Electron scattering cross sections for the ground and excited states of tin[AMDIS EXC]
  6. Jonauskas, V. - Mon. Not. R. Astron. Soc. 526 2104-2109 (2023) - Electron-impact single ionization for N+ ion[AMDIS ION]
  7. Forer, J. et al. - Mon. Not. R. Astron. Soc. 527 5238-5243 (2024) - Kinetic rate coefficients for electron-driven collisions with CH+: dissociative recombination and rovibronic excitation[AMDIS REC]
  8. Gupta, S.$Oishi, T.$Murakami, I. - atmos 11 142 (2023) - Study of Electron Impact Excitation of Na-like Kr Ion for Impurity Seeding Experiment in Large Helical Device[AMDIS EXC]
  9. Djuric, N.Lj. et al. - Int. J. Mass Spectrom. Ion Processes 83 R7-R10 (1988) - H2O and D2O Total Ionization Cross-sections by Electron Impact[AMOL]
  10. Wang, H.$Jiang, G. - Atomic Data and Nuclear Tables 148 101532 (2022) - Atomic structure and electron impact excitation of Al-like ions (Ga-Br)[AMDIS EXC]
(July 2024)
  1. Kwon, D.-H.$Cho, Y.-S. - Atomic Data and Nuclear Tables 137 101385 (2021) - Electron-impact excitation cross sections for Ar and Ar+ by unitarized distorted-wave approximation[AMDIS EXC]
  2. Tomer, H. et al. - Chemical Physics Impact 3 100032 (2021) - Electron impact scattering from pentane molecules and effect of isomerism on cross section[AMOL]
  3. Singh, N.$Goyal, A. - J. Electr. Spectros. and Rel. Pheno. 244 146982 (2020) - Energy levels, transition data and collisional excitation cross-section of Sn3+ and Sn4+ ions[AMDIS EXC]
  4. Dipti$Schltz, D.R.$Ralchenko, Y. - Plasma Phys. Control. Fusion 63 115010 (2021) - Charge exchange recombination spectroscopy of Wq (q = 61-66) for application to ITER neutral hydrogen beam diagnostics[AMDIS REC]
  5. Kumar, R. et al. - Chemical Physics Impact 6 100210 (2023) - Electron impact ionization cross-sectrions for CH3 and SiH3 radical targets investigation[AMOL]
  6. Kumar, R.$Sharma, P.K. - Chemical Physics Impact 6 100004 (2020) - Electron impact ionization cross section of C2H4 molecule investigation[AMOL]
  7. Bao, R.$Wei, J.$Li, B.$Chen, X. - atoms 10 92 (2022) - Electron-Impact Ionization of the Tungsten Ions: W38+ - W45+[AMDIS ION]
  8. Bao, R.$Li, B. - Plasma Phys. Control. Fusion 65 105004 (2023) - Maxwellian and non-Maxwellian rate coefficients of the tungsten ions: W46+-W55+[AMDIS ION]
  9. Li, B. - Private Communication (2023)[AMDIS ION]W8+
  10. Chen, L.$Li, B.$Chen, X. - J. Quant. Spectrosc. & Radiat. Transfer 285 108179 (2022) - Contribution of the metastable states to electron-impact single ionization for W7+[AMDIS ION]
  11. Bao, R. et al. - Chin. Phys. B 32 063401 (2023) - Electron-impact ionization of W9+ and W10+[AMDIS ION]
  12. Bell, K. et al. - CLM-R216 (1982) - Recommended cross sections and ratio for electron ionization of light atomics and ions.[AMDIS ION]
  13. Summers, H.P. - ADAS (1994) - Electron impact ionisation coefficients[AMDIS ION]
  14. Olson, R.$Wolfrum, E. - ADAS (2004) - Atomic Orbital close coupling calculations for He2+ colliding with Carbon atoms in various initial states (2s,3s,2p,3p,3d)[CHART]
  15. Suarez, J.$Summers, H.P.$O'Mullane, M. - ADAS (2005) - Charge exchange cross sections of Ne10+ and H[CHART]
  16. Badnell, N.R - ADAS (2000) - Resolved Dielectronic Recombination Coefficients[AMDIS REC]
  17. Bleda, E.A.$Altun, Z.$Badnell, N.R. - Astron. & Astrophys. 668 A72 (2022) - Dielectronic recombination data for dynamic finite-density plasmas XVI. The phosphorus isoelectronic sequence[AMDIS REC]
  18. Badnell, N.R - ADAS (1993) - Resolved Dielectronic Recombination Coefficients[AMDIS REC]
  19. Zatsarinny, O. - ADAS (2000) - Resolved Dielectronic Recombination Coefficients[AMDIS REC]
  20. Colgan, J. - ADAS (2001) - Resolved Dielectronic Recombination Coefficients[AMDIS REC]B - Xe
(April 2024)
  1. Badnell, N.R - Astrophys. J. Suppl. 167 334-342 (2006) - Radiative recombination data for modeling dynamic finite-density plasmas[AMDIS REC]
  2. Gayet - ADAS (1992)[CHART]He,Li, Be in H, He
  3. Turkstra, J.W.$Lubinski, G.$Hoekstra, R.$Olson, R.E. - ADAS (2004) - CTMC calculations[CHART]He - O in Li
  4. Bliek, F.W.$Hoekstra, R.$Olson, R.E. - ADAS (2004) - CTMC calculations[CHART]He, Li, Be, B in H
  5. Wolfrum, E.$Schweinzer, J. - ADAS (2004) - Atomic Orbital close coupling calculations for He2+ colliding with Lithium atoms in various initial states (2s,3s,2p,3p,3d)[CHART]
  6. O'Mullane, M. - ADAS (2009) - Electron Impact Ionisation Coefficients[AMDIS ION] W
  7. Preval, S.P. et al. - J. Phys. B 50 105201 (2017) - Partial and total dielectronic recombination rate coefficients for W55+ to W38+[AMDIS REC]
  8. Dunleavy, N.L. et al. - J. Phys. B 55 175002 (2022) - A Dirac R-matrix calculation for the electron-impact excitation of W+[AMDIS EXC]
  9. Kyniene, A. et al. - Astron. & Astrophys. 624 A14 (2019) - Electron-impact ionization of Fe8+[AMDIS ION]
(October 2023)
  1. Shang, S. et al. - VACUUM 125 192-204 (2016) - An empirical formula for Ez in the modified Sigmund formula for low energy heavy ion bombardment[SPUTY]
  2. Tartz, M. et al. - Eur. Phys. J. D 61 587-592 (2011) - Sputter yields of Mo, Ti, W, Al, Ag under xenon ion incidence [SPUTY]
  3. Zhao, X.$Wang, K. - Chinese Physics B 31 083402 (2022) - Elastic electron scattering with CH2Br2 and CCl2Br2: The role of the polarization effects[AMOL]
  4. Tayal, S.S.$Zatsarinny, O. - Astrophys. J. 788 24 (2014) - Electron impact excitation collsion strengths for extreme ultraviolet lines of Fe VII[AMDIS EXC]
  5. Jonauskas, V. - Astron. & Astrophys. 659 A11 (2022) - Electron-impact single ionization of the nitrogen atom[AMDIS ION]
  6. Jonauskas, V. - Atomic Data and Nuclear Tables 135-136 101363 (2020) - Electron impact single ionization for Si atom[AMDIS ION]
  7. Jonauskas, V. - Atomic Data and Nuclear Tables 135-136 101363 (2018) - Electron-impact double ionization of the carbon atom[AMDIS ION]
  8. Dere, K.P. - Astron. & Astrophys. 466 771-792 (2007) - Ionization rate coefficients for the elements hydrogen through zinc[AMDIS ION]
  9. Fernandez-Menchero, L.$Del Zanna, G.$Badnell, N.R. - Astron. & Astrophys. 566 A104 (2014) - R-matrix electron-impact excitation data for the Be-like iso-electronic sequence[AMDIS EXC]
  10. Liang, G.Y.$Badnell, N.R. - Astron. & Astrophys. 528 A69 (2011) - R-matrix electron-impact excitation data for the Li-like iso-electronic sequence including Auger and radiation damping[AMDIS EXC]
  11. Liang, G.Y. et al. - Astron. & Astrophys. 533 A87 (2011) - R-matrix electron-impact excitation data for astrophysically abundant sulphur ions[AMDIS EXC]
  12. Liang, G.Y.$Whiteford, A.D.$Badnell, N.R. - Astron. & Astrophys. 500 1263-1269 (2009) - R-matrix electron-impact excitation data for the Na-like iso-electronic sequence[AMDIS EXC]
  13. Del Zanna, G.$Badnell, N.R. - Astron. & Astrophys. 585 A118 (2016) - Atomic data for astrophysics: Ni XIIX[AMDIS EXC]R-matrix electron-impact excitation data for the Na-like iso-electronic sequence
  14. Del Zanna, G.$Storey, P.J.$Badnell, N.R.$Mason, H.E. - Astron. & Astrophys. 565 A77 (2014) - Atomic data for astrophysics: Fe IX[AMDIS EXC]
  15. Del Zanna, G.$Storey, P.J.$Badnell, N.R. - Astron. & Astrophys. 566 A123 (2014) - Atomic data for astrophysics: Ni XI[AMDIS EXC]
  16. Del Zanna, G.$Storey, P.J.$Mason, H.E. - Astron. & Astrophys. 549 A42 (2013) - Atomic data for astrophysics: Ni XV[AMDIS EXC]
  17. Del Zanna, G. et al. - Astron. & Astrophys. 567 A18 (2014) - Atomic data for astrophysics: Fe XI soft X-ray lines[AMDIS EXC]
  18. Del Zanna, G. et al. - Astron. & Astrophys. 541 A90 (2012) - Atomic data for astrophysics: Fe X soft X-ray lines[AMDIS EXC]
(April 2023)
  1. Edwards, A.K.$Wood, R.M. - Phys. Rev. A 34 4411 (1986) - Nondissociative ionization and double ionization of H2 by H+ and He+ projectiles[CMOL]
  2. Mao, J.$Badnell, N.R.$Del Zanna, G. - Astron. & Astrophys. 634 A7 (2020) - R-matrix electron-impact excitation data for the C-like iso-electronic sequence[AMDIS EXC]
  3. LAN, P.T.$JEON, B-.H. - J. Phys. Soc. Jpn. 81 104501 (2012) - Determination of Electron Collision of Cross-Sections for the H2 Molecule for Plasma Discharge Simulation
  4. Kato, H. et al. - J. Chem. Phys. 136 134313 (2012) - Elatic cross sections for electron scattering from GeF4: Predominance of atomic-F in the high-energy collision dynamics
  5. Masion, Z. et al. - J. Chem. Phys. 136 144310 (2012) - Elastic and inelastic cross sections for low-energy electron collisions with pyrimidine[AMOL]
  6. Das, T.$Sharma, L.$Srivastava, R. - Physica Scripta. 86 035301 (2012) - Electron impact excitation of the M-shell electrons from Zn-like through Co-like tungsten ions[AMDIS EXC]
  7. O'Dwyer, B. et al. - Astron. & Astrophys. 537 A22 (2012) - Atomic data for the X-ray lines of Fe VIII and Fe IX[AMDIS EXC]
  8. Li, B.W.$O'Sullivan, G.$Fu, Y.B.$Dong, C.Z. - Phys. Rev. A 85 012712 (2012) - Dielectronic recombination of Pd-like gadolinium[AMDIS REC]
  9. Ward, S.J.$Shertzer, J. - New J. Phys. 14 025003 (2012) - Hyperpherical hidden crossing method applied to Ps(1s)-formation in low energy e+-H, e+-Li and e+-Na collisions[AMDIS ION]
  10. Del Zanna, G. et al. - Astron. & Astrophys. 543 A139 (2012) - Atomic data for astrophysics: Fe XII soft X-ray lines
  11. Abramzon, N.$Martus, K.E.$Becker, K. - J. Chem. Phys. 113 2250 (2000) - Absolute cross section for the formation of Si(1S) atoms following electron impact dissociation of SiH4[AMOL]
  12. Mankodi, T.K.$Bhandarkar, U.V.$Puranik, B.P. - J. Chem. Phys. 146 204307 (2017) - Dissociation cross sections for N2 + N -> 3N and O2 + O -> 3O using the QCT method[CMOL]
  13. Hishiyama, N. et al. - J. Chem. Phys. 147 224308 - Absolute cross section measurements for the scattering of low- and intermediateenergy electrons from PF3. I. Elastic scattering[AMOL]
  14. Nicolas, C. et al. - J. Chem. Phys. 118 2723 (2003) - Integral and differential cross section measurements at low collision energies for the N2++CH4/CD4 reactions[CMOL]
  15. Vacher, J.R. et al. - Chem. Phys. 476 178-181 (2009) - Electron impact ionization of formaldehyde[AMOL]
  16. Vacher, J.R. et al. - Chem. Phys. 323 587-594 (2006) - Partial ionisation cross-sections of 2-propanol and ethanal[AMOL]
  17. Bowen, K.P. et al. - Can. J. Phys. 154 084307 (2021) - Dynamics of the isotope exchange reaction of D with H3M+, H2D+, and D2H+[CMOL]
  18. Zhaunerchyk, V. et al. - J. Chem. Phys. 127 014305 (2007) - Dissociative recombination study of N3+: Cross section and branching fraction[AMOL]
  19. Gupta, D.J.$Antonya, B. - J. Chem. Phys. 141 054303 (2014) - Electron impact ionization of cycloalkanes, aldehydes, and ketones[AMOL]
  20. Nygaard, K.J.$Hahm, Y.B. - J. Chem. Phys. 58 3493 (1973) - Total electron impact ionization cross section in rubidium from threshold to 250 eV[AMDIS ION]
  21. Cook, C.J.$Smyth, N.R.A.$Heinz, O. - J. Chem. Phys. 63 1218 (1975) - Measured cross section for the formation of H2+ by fast proton impact on methane[AMOL]
  22. Chantry, P.J.$Chen, C.L. - J. Chem. Phys. 90 2585 (1989) - Ionization and temperature dependent attachment cross section measurements in C3F8 and C2H3Cl[AMOL]
  23. Vinodkumar, M. et al. - J. Chem. Phys. 136 184308 (2012) - Electron impact total cross section for acetylene over an extensive range of impact energies (1eV-5000eV)[AMOL]
  24. Harrison, A.G. et al. - Can. J. Phys. 44 1967 (1966) - TOTAL CROSS SECTIONS FOR IONIZATION BY ELECTRON IMPACT[AMOL]
  25. Dubuis, A.T. et al. - J. Chem. Phys. 147 054301 (2017) - Total cross section of furfural by electron impact: Experiment and theory[AMOL]
  26. Wolff, W. et al. - J. Chem. Phys. 151 064604 (2019) - Absolute ionization and dissociation cross sections of tetrahydrofuran: Fragmentation-ion production[AMOL]
  27. Singh, S.$Naghma, R.$Kaur, J. - J. Chem. Phys. 145 034309 (2016) - Calculation of total and ionization cross sections for electron scattering by primary benzene compounds[AMOL]
  28. Mi, L.$Bonham, R.B. - J. Chem. Phys. 108 1904 (1998) - Electron-ion coincidence measurements: The neutral dissociation plus excitation cross section for N2[AMOL]
  29. Jones, R.K. - J. Chem. Phys. 82 5424 (1985) - Absolute total cross section for the scattering of low energy electrons by methane[AMOL]
  30. Jiao. C.Q.$Adams, S.F. - Chem. Phys. Lett. 573 24-28 (2013) - Electron ionization of o-xylene, m-xylene and p-xylene[AMOL]
  31. Makochekanwa, C. et al. - Phys. Rev. A 68 032707 (2003) - Comparative study of electron and positron scattering from benzene (C6H6) and hexafluorobenzene (C6F6)[AMOL]
  32. Mozejko, P. et al. - Chem. Phys. Lett. 257 309-313 (1996) - Absolute total cross section measurements for electron scattering on benzene molecules[AMOL]
  33. Sueoka, O. - J. Phys. B 21 L631-L635 (1988) - Total cross section measurements for positron and electron scattering on benzene molecules - J. Phys. B 21 L631-L635 (1988)[AMOL]
  34. Kato, H. et al. - J. Chem. Phys. 134 134308 (2011) - A study of electron scattering from benzene: Excitation of the 1B1u, 3E2g, and 1E1u electronic states[AMOL]
  35. Kato, H. et al. - Phys. Rev. A 79 062703 (2009) - Absolute elastic differential cross sections for electron scattering by C6H5CH3 and C6H5CF3 at 1.5-200 eV: A comparative experimental and theoretical study with C6H6[AMOL]
  36. Falkowski, A.G. et al. - Eur. Phys. J. D 75 310 (2021) - Electronic excitation of benzene by low energy electron impact and the role of higher lying Rydberg states[AMOL]
  37. Costa, F. et al. - J. Chem. Phys. 151 084310 (2019) - Experimental and theoretical analysis for total electron scattering cross sections of benzene[AMOL]
  38. Cho, H. et al. - J. Phys. B 34 1019-1038 (2001) - Elastic electron scattering from C6H6 and C6F6[AMOL]
  39. Maihom, T. et al. - Eur. Phys. J. D 67 2 (2013) - Electron impact ionization cross sections of beryllium and beryllium hydrides[AMOL]
  40. da Silva, L.A. et al. - Eur. Phys. J. D 75 279 (2021) - Elastic and absorption electron collisions with acetaldehyde[AMOL]
  41. Meltzer, T.$Tennyson, J. - J. Phys. B 53 245203 (2020) - Electron collisions with molecular hydrogen from electronically excited states using the R-matrix method[AMOL]
  42. Abramzon, N.$Martus, K.E.$Becker, K. - J. Chem. Phys. 115 2250 (2000) - Absolute cross section for the formation of Si(1S) atoms following electron impact dissociation of SiH4[AMOL]
  43. Mankodi, T.K.$Bhandarkar, U.V.$Puranik, B.P. - J. Chem. Phys. 146 204307 (2017) - Dissociation cross sections for N\2` + N -> 3N and +O2 + O -> 3O using the QCT method[AMOL]
  44. Vacher, J.R$Jorand, F.$Blin-Simiand, N.$Pasquiers, S. - Chem. Phys. Lett. 478 178-181 (2009) - Electron impact ionization of formaldehyde[AMOL]
  45. Vacher, J.R$Jorand, F.$Blin-Simiand, N.$Pasquiers, S. - Chem. Phys. Lett. 434 188 -193 (2007) - Electron impact ionization cross-sections of toluene[AMOL]
  46. Vacher, J.R$Jorand, F.$Blin-Simiand, N.$Pasquiers, S. - Chem. Phys. 323 587-594(2006) - Partial ionisation cross-sections of 2-propanol and ethanal[AMOL]
  47. Nicolas, C.$Torrents, R.$Gerlich, D. - J. Chem. Phys. 118 2723 (2003) - Integral and differential cross section measurements at low collision energies for the N2++CH4/CD4 reactions[CHART molecule]
  48. Wen, W.Q. et al. - Astrophys. J. 905 36 (2020) - Rate Coefficients for Dielectronic Recombination of Carbon-like 40Ca14+[AMDIS REC]
  49. Fritzsche, S. - Astron.&Astrophy 656 A163 (2021) - Dielectronic recombination strengths and plasma rate coefficients of multiply charged ions[AMDIS REC]
  50. Wang, S.-X. et al. - Astron.&Astrophy 621 A171 (2019) - Dielectronic recombination rate coefficients of fluorine-like nickel[AMDIS REC]
  51. Gao, J.W.$Qi, Y.Y.$Yang, Z.H.$Hu, Z.M.$Zhang, Y.W.$Wu, Y.$Wang, J.G.$Dubois, A.$Sisourat, N. - Phys. Rev. A. 105 032826 (2021) - Single- and double-electron capture in intermediate-energy H+ + Mg collisions[CHART]
  52. Santos, O.C.B.$Vanin, V.R.$Maidana, N.L.$Martins, M.N.$Tabacniks, M.H.$Rodrigues, C.L.$Silva, T.F.$Santos, A.D.$Barros, S.F.$Garcia-Alvarez, J.A.$Koskinas, M.F.$Fernandez-Varea, J.M.$Pindzola, M.S. - Phys. Rev. A. 100 022703 (2019) - Experimental and theoretical cross sections for K-shell ionization of 52Te, 73Ta, and 83Bi by electrons with energies up to 100 keV[AMDIS ION]
  53. Plasil, R.$Rednyk, S.$Kovalenko, A.$Tran, T.D.$Roucka, S.$Dohnal, P.$Novotny, O.$Glosik, J. - Astrophys. J. 910 150 (2021) - Experimental Study on CH+ Formation from Doubly Charged Carbon and Molecular Hydrogen[AMOL]
  54. Marinkovic, B.P.$Tosic, S.D.$Sevic, D. - Phys. Rev. A. 104 022808 (2021) - Electron-impact excitation of the (4d105s) 2S1/2 -> (4d,95s2) 2D3/2 and (4d105s) 2S1/2 -> (4d106s) 2S1/2 transitions in silver: Experiment and theory[AMDIS EXC]
  55. Leung, A.C.K.$Kirchner, T. - atoms 10 11 (2020) - Two-Center Basis Generator Method Calculations for Li3+, C3+ and O3+ Ion Impact on Ground State Hydrogen[AMDIS EXC]
  56. Pindzola, M.S.$Colgan, J.S. - J. Phys. B. 54 115202 (2021) - Electron-impact double ionization of He (1s2s 3S)[AMDIS ION]
  57. Matthieu, G.$Defrance, P.$Jureta, J.J.$Urbain, X.- Eur. Phys. J. D. 73:30 (2019) - Absolute total cross sections for electron-impact double ionization of He(1s2s 3S) and He-(1s2s2p 4P)[AMDIS ION]
  58. Vergara, S.$Martinez, A.A>$FPenalver, F.R.$Hinojosa, G. - J. Phys. B. 54 155201 (2021) - Electron detachment cross section of H^-` induced by collisions with O2[AMOL]
  59. Antonio, N.W.$Plowman, C.T.$Abdurakhmanov, I.B.$Bray, I.$Kadyrov, A.S. - J. Phys. B. 54 175201 (2021) - Integrated total and state-selective cross sections for bare beryllium ion collisions with atomic hydrogen[CHART]Be, H
(October 2022)
  1. Han, J.$Wei, L.$Wang, B.$Ren, B.$Yu, W.$Zhang, Y.$Zou, Y.$Chen, L.$Xiao, J.$Wei, B. - Astrophys. J. Suppl. 253 6 (2021) - Measurement of Absolute Single and Double Electron Capture Cross Sections for O6 Ion Collisions with CO2, CH4, H2, and N2[CHART molecule]
  2. Cariatore, N.D.$Schultz, D.R. - Astrophys. J. Suppl.252 7 (2021) -Proton and Hydrogen Transport through Hydrogen Environments: Ionization and Stripping[CHART]H
  3. Liu, L.$Wu, Y.$Wanga, J.G.$Janev, R.K. - Atomic Data and Nuclear Tables 143 101464 (2022) - Total and subshell-selective charge exchange cross sections in collisions of highly-charged Ne ions with atomic hydrogen[CHART]Ne, H
  4. Barklem, P.S.$Osorio, Y.$Fursa, D.V.$Bray, I.$Zatsarinny, O.$Bartschat, K.$Jerkstrand, A. - Astron. & Astrophys. 606 A11 (2017) - Inelastic e+Mg collision data and its impact on modelling stellar and supernova spectra[AMDIS Exciation] Mg
  5. Tu, H.$Wang, S.$Cui, L.$Cheng, L.Lu, G-.H.,O'Connor, D.J.$Shi, L. - J. Nucl. Mater. 556 153168 (2021) - The influence of impurities on the erosion of tungsten by low energy high flux deuterium plasma irradiation [SPUTY]D -> W
  6. Sugiyama, K.$Schmid, K.$Jacob, W. - Nucl. Mater. and Energy 8 1-7 (2016) - Sputtering of iron, chromium and tungsten by energetic deuterium ion bombardment [SPUTY]D -> Fe, Cr, W
  7. Saito, S.$Nakamura, H.$Tokitani, M. - J. Appl. Phys. 56 01AF04 (2017) - Comparison of induced damage, range, reflection, and sputtering yield between amorphous, bcc crystalline, and bubble-containing tungsten materials under hydrogen isotope and noble gas plasma irradiations [SPUTY]H, D, T, He, Li, Be, Ne, Ar -> W
  8. Mutzke, A.$Bandelow, G.$Schneider, R. - J. Nucl. Mater. 467 413-417 (2015) - Sputtering of mixed materials of Beryllium and Tungsten by Hydrogen and Helium [SPUTY]H, He -> Be, W
  9. Yang, X.$Hassanein, A. - Appl. Surf. Sci. 293 187-190 (2014) - Atomic scale calculations of tungsten surface binding energy and beryllium-induced tungsten sputtering [SPUTY]Be -> W
  10. Elabidi, H.$Sahal-Brechot, S.$Nessib, N.B. - Physica Scripta.Physica 85 065302 (2012) Fine structure collision strengths for S VII lines [AMDIS Excitation]S6+
  11. Aggarwal, K.M.$Keenan, F.P. - Physica Scripta 86 035302 (2012) Energy levels, radiative rates and electron impact excitation rates for transitions in He-like Kr XXXV[AMDIS Excitation]Kr34+
  12. Muramoto, T.$Kenmotsu,T. - Nucl. Instrum. Methods Phys. Res. B 255 214-218 (2007) MD simulation of sputtering on surface index and surface roughness dependence [SPUTY]
  13. Salonen, E.$Nordlund, K.$Keinonen, J.$Wu, C.H. - J. Nucl. Mater. 305 60-65 (2002) Enhanced erosion of tungsten by atom clusters [SPUTY]W
  14. Golczewski, A.$Dobes, K.$Wachter, G.$Schmid, M.$Aumayr, F.$Wu, C.H. - Nucl. Instrum. Methods Phys. Res. B 267 695-699 (2002) A quartz-crystal-microbalance technique to investigate ion-induced erosion [SPUTY]
  15. Deng, B.-Q.$Allain, J.P.$Luo, Z.-M.$Peng, L.-L.$Yan, J.-C. - Nucl. Instrum. Methods Phys. Res. B 259 849-852 (2007) Near-surface bipartition model for the study of material response of plasma-facing surfaces exposed to energetic charged particles [SPUTY]
  16. Yang, X.$Hassanein, A. - Nucl. Instrum. Methods Phys. Res. B 308 80-87 (2013) Molecular dynamics simulation of erosion and surface evolution of tungsten due to bombardment with deuterium and carbon in Tokamak fusion environments [SPUTY]D, C
  17. Yang, Q.$Huang, Y.$Sun, J.$Liu, L.$Ni, W.$Fan, H.$Liu, D. - Nucl. Instrum. Methods Phys. Res. B 437 48-52 (2018) Surface degeneration of tungsten wires irradiated with low-energy (12-220eV) helium ions [SPUTY]He ion
  18. Yang, Z.$Song, W.$Li, Y.$Yang, J. - Nucl. Instrum. Methods Phys. Res. B 455 118-123 (2019) BCA simulations of ion irradiation of tungsten fuzz [SPUTY]
  19. Nishijima, D.$Baldwin, M.J.$Doerner, R.P.$Yu, J.H. - J. Nucl. Mater. 415 S96-S99 (2011) Sputtering properties of tungsten 'fuzzy' surfaces [SPUTY]
  20. Ono, T.$Shibata, K.$Kenmotsu, T.$Muramoto, T.$Li, Z.$Kawamura, T. - J. Nucl. Mater. 363-365 1266-1271 (2007) Extended incident-angle dependence formula for physical sputtering [SPUTY]
  21. Hop, C.$Jacob, W.$Rohde, V.$Muramoto, T.$Li, Z.$Kawamura, T. - J. Nucl. Mater. 374 413-421 (2008) Oxygen glow discharge cleaning in nuclear fusion devices [SPUTY]
  22. Golczewski, A.$Kuzucan, A.Schmid, K.$Roth, J.$Schmid, M.$Aumayr, F. - J. Nucl. Mater. 390-391 1102-1105 (2009) Ion-induced erosion of tungsten surfaces studied by a sensitive quartz-crystal-microbalance technique [SPUTY]
  23. Sefta, F.$Juslin, N.$Hammond, K.D.$Wirth, B.D. - J. Nucl. Mater. 438 SUPPL S493-S496 (2013)
  24. Ferroni, F.$Hammond, K.D.$Wirth, B,D - J. Nucl. Mater. 458 419-424 (2015) Sputtering yields of pure and helium-implanted tungsten under fusion-relevant conditions calculated using molecular dynamics [SPUTY]
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  28. Aggarwal, K.M.$Keenan, F.P. - Physica Scripta 86 055301 (2012) Energy levels, radiative rates and electron impact excitation rates for transitions in Be-like Ti XIX [AMDIS Excitation]Ti13+
  29. Aggarwal, K.M.$Keenan, F.P. - Physica Scripta 85 025306 (2012) Energy levels, radiative rates and electron impact excitation rates for transitions in He-like Cl XVI, K XVIII, Ca XIX and Sc XX [AMDIS Excitation]Cl15+, K17+, Ca13+, Sc9+
  30. Aggarwal, K.M.$Keenan, F.P. - Physica Scripta 85 065301 (2012) Energy levels, radiative rates and electron impact excitation rates for transitions in He-like Ti XXI, V XXII, Cr XXIII and Mn XXIV [AMDIS Excitation]Ti10+, V11+, Cr22+, Mn23+
  31. Malone, C.P. - Phys. Rev. A 85 062704 (2012) Integral cross sections for the electron-impact excitation of the b1Paiu, c31Paiu, o31Sigmau, b'1Sigma+u, c'41Sigma+u, G3Paiu, and F3Paiu states of N2
  32. Laricchiuta, A. - Phys. Rev. A 85 062713 (2012) Electron-impact-induced allowed transitions in Cs2 [AMDIS Molecule]
(April 2022)
  1. Hargreaves, L.R. - J. Chem. Phys. 142 124310 (2015) Low energy elastic electron scattering from CF3Br molecules [AMDIS Molecule]
  2. de Costa, R.F. - J. Chem. Phys. 149 174308 (2018) An ab initio investigation for elastic and electronically inelastic electron scattering from para-benzoquinone [AMDIS Molecule]
  3. Thomas, R.D. - Astrophys. J. 758:55 (2012) Dissociative recombination of vibrationally cold CH3+ and interstellar implications [AMDIS Molecule]
  4. Hudson, C.E. - Astrophys. J. 750:65 (2012) Collision strengths and effective collision strengths for transitions within the ground-state configuration of S III [AMDIS Exciation]
  5. Liu, L. - Eur. Phys. J. D. 73:200 (2019) Electron capture, excitation and ionization in H+-Be+ collisions [CHART] H+, Be+
  6. Mancev, I. - Physica Scripta 95 065403 (2020) Electron capture by fast projectiles from lithium, carbon, nitrogen, oxygen and neon [CHART]
  7. Laporta, V. - Plasma Sources Sci. Technol. 21 055018 (2012) Theoretical vibrational-excitation cross sections and rate coefficients for electron-impact resonant collisions involving rovibrationally excited N2 and NO molecules [AMDIS Molecule] N2, NO
  8. Wang, Y-.F. - Phys. Rev. A. 85 012706 (2012) Low-energy electron collision with formamide using the R-matrix method [AMDIS Molecule]
  9. Keenan, F.P. - Mon. Not. R. Astron. Soc. 346 58-62 (2003) Extreme ultraviolet emission lines of Ar XIV in solar active region and flare spectra [AMDIS Excitation] Ar13+
  10. Zhou, W. - Molecular Physics 117 3066-3075 (2019) Total electron ionization cross-sections for molecules of astrochemical interest [AMDIS Molecule]
  11. Houfek, K. - Nucl. Instrum. Methods Phys.Res.B 279 71-125 (2012) Resonant inelastic collisions of electrons with diatomic molecules [AMDIS Molecule]
  12. Champion, C. - Nucl. Instrum. Methods Phys.Res.B 273 98-101 (2012) Electron and proton elastic scattering in water vapour [AMDIS Molecule] H2O
  13. Laporta, V. - Plasma Sources Sci. Technol. 21 045005 (2012) Electron-impact resonant vibration excitation cross sections and rate coefficients for carbon monoxide [AMDIS Molecule] CO
  14. Kumari, S. - Eur. Phys. J. D. 66:87 (2012) Electrin impact double ionization of Mg+ ions [AMDIS Excitation] Mg
  15. Vinodkumar, M. - Eur. Phys. J. D. 66:74 (2012) Computation of the total scattering cross sections for electron impact on HCl and HBr between 0.1 eV and 2000 eV [AMDIS Molecule] HCl, HBr
  16. Huo, W.M. - Chem. Phys. Lett. 358 328-336 (2002) Total electron-impact ionization cross-sections of CF4 and NF4 (x=1-3) [AMDIS Molecule] CF4, NF4
  17. Pindzola, M.S. - Eur. Phys. J. D. 74:11 (2020) Electron ionization of the CN+ molecule [AMDIS Molecule]
  18. Pindzola, M.S. - Eur. Phys. J. D. 74:180 (2019) Photon and electron ionization of the HeH+ Molecule [AMDIS Molecule] HeH+
  19. da Mata, V.A.S. - J. Phys. B. 54 035201 (2021) Elastic electron scattering from chlorobenzene [AMDIS Molecule]
  20. Bharadvaja, A. - Eur. Phys. J. D. 73:199 (2019) Electron-impact cross sections of X2CO (X = H, F, Cl, Br) [AMDIS Molecule] H2CO, F2CO, Cl2CO, Br2CO
  21. Stefanowska-Tur, S. - J .Chem. Phys. 150 (2019) Electron collisions with X(CH3)4 molecules(X = C, Si, Ge)[AMDIS Molecule]
  22. Sinha, N.- J. Phys. B. 52 145202 (2019) Electron impact ionisation cross-sections for complex molecules [AMDIS Molecule]
  23. Aggarwal, K.M. - Atomic Data and Nuclear Tables 99 156-248 (2013) Energy levels, radiative rates, and electron impact excitation rates for transitions in Li-like ions with 12 <= Z <= 20 [AMDIS Excitation]
  24. Heathcote, D. - J. Phys. B. 51 195203 (2018) Total electron ionization cross-sections for neutral molecules relevant to astrochemistry [AMDIS Molecule]
  25. Kumar, Y. - atoms (2019) The Electron Impact Ionization Cross Sections of Methanol, Ethanol and 1-Propanol [AMDIS Molecule]
  26. Dampc, M. - Eur. Phys. J. D. 72:216 (2018) Electron impact ionization and cationic fragmentationof the pyridazine molecules [AMDIS Molecule]
  27. Belic, D.S - Phys. Rev. A. 95 052702 (2017) Electron-impact dissociation and ionization of CN+ ions [AMDIS Molecule] [AMDIS Molecule] CN+
  28. Dipti, D.T. - Atomic Data and Nuclear Tables 127-128 1-21 (2019) Recommender electron-impact excitation and ionization cross sections for Be I [AMDIS Excitation][AMDIS Ionization] Be
  29. Loch, S.D. - Electron-impact ionization of Al [AMDIS Ionization] Al
  30. Ballance, C.P. - Dielectronic recombination of Au20+: a theoretical decription of the resonances at low electron energies [AMDIS Recombination] Au20+
  31. Abdel-Naby, Sh. A. - Dielectronic recombination data for dynamic finite-density plasmas XIV. The aluminum isoelectronic sequence [AMDIS Recombination] Al
  32. Moradmand, A. - Astrophys. J. Sup. Ser. 234 14 (2018) Measurement of Absolute Single and Double Charge Exchange Cross Sections for Si(7-10)+ at 0.88-2.50 KeV/u Impacting He and H2 [CHART molecule] Si(7-10)+ in He and H2
  33. Zatsarinny, O. - J. Phys. B. 49 235701 (2016) Calculations for electron-impact excitation and ionization of beryllium [AMDIS Ionization] Be
(August 2021)
  1. Schury, D. - J. Phys. B. 53 01501 (2020) Electron-impact single ionisation of Wq+ions: experiment and theory for 11 <= q <= 18 [AMDIS Ionization] W11+ - W18+
  2. Zatsarinny, O. - J. Phys. B. 49 235701 (2016) Calculations for electron-impact excitation and ionization of beryllium [AMDIS Excitation][AMDIS Ionization] Be
  3. Belic, D.S. - J. Phys. B. 49 135202 (2016) Electron-impact dissociation and ionization of NO^+` ions [AMDIS Molecule] NO+
  4. Duque, H. - J. Chem. Phys. 142 124307 (2015) The role of electron-impact vibrational excitation in electron transport through gaseous tetrahydrofuran [AMDIS Molecule] C4H8O
  5. Neves, R.F.C. - J. Chem. Phys. 142 194305 (2015) Integral cross sections for electron impact excitation of vibrational and electronic states in phenol [AMDIS Molecule] C6H5OH
  6. Jones, D.B. - J. Chem. Phys. 143 094304 (2015) Intermediate energy cross sections for electron-impact vibrational-excitation of pyrimidine [AMDIS Molecule] C4H4N2
  7. Jones, D.B. - J .Chem. Phys. 143 224304 (2015) Excitation of vibrational quanta in furfural by intermediate-energy electrons [AMDIS Molecule] C5H4O2
  8. Fuss, M.C. - Eur. Phys. J. D. 68 161 (2014) Differential and integral electron scattering cross sections from tetrahydrofuran (THF) over a wide energy range: 1-10000 eV [AMDIS Molecule] C4H8O
  9. Duque, H.V. - J .Chem. Phys. 140 (2014) Intermediate-energy differential and integral cross sections for vibrational excitation in alpha-tetrahydrofurfuryl alcohol [AMDIS Molecule] C5H10O2
  10. Duque, H.V. - Chem. Phys. Lett. 608 161-166 (2014) Cross sections for electron scattering from Alpha-tetrahydrofurfuryl alcohol [AMDIS Molecule] C5H10O2
  11. Moradmand, A. - C Measurement of Absolute Single and Double Charge Exchange Alpha-tetrahydrofurfuryl alcohol [CHART Molecule] Si in H2
  12. Dubuis, A. - J. Chem. Phys. 147 054301 (2017) Total cross section of furfural by electron impact: Experiment and theory [AMDIS Molecule] C5H4O2
  13. Palihawadana, P. - J. Chem. Phys. 139 014308 (2013) A joint theoretical and experimental study for elastic electron scattering from 1,4-dioxane [AMDIS Molecule] C4H8O2
  14. Jones, D. - J. Chem. Phys. 148 204305 (2018) Integral elastic, vibrational-excitation, electronic-state excitation,ionization, and total cross sections for electron scattering from para-benzoquinone [AMDIS Molecule] C6H4O2
  15. Jones, D.B. - J. Chem. Phys. 144 144303 (2016) Integral elastic, electronic-state, ionization, and total cross sections for electron scattering with furfural [AMDIS Molecule] C5H4O2
  16. da Silva, D.G.M.- J. Chem. Phys. 147 194307 (2017) Total cross sections for electron scattering by 1-propanol at impact energies [AMDIS Molecule] C3H8O
  17. Lozano, A.I. - J. Chem. Phys. 149 244304 (2018) Total cross section measurements for electron scattering from dichloromethane [AMDIS Molecule] CH2Cl2
  18. Krupa, K. - Phys. Rev. A. 97 042702 (2018) Experimental and theoretical electron-scattering cross-section data for dichloromethane [AMDIS Molecule] CH2Cl2
  19. Sanz, A. - J. Chem. Phys. 139 184310 (2013) An investigation into electron scattering from pyrazine at intermediate and high energies [AMDIS Molecule] C4H4N2
  20. Fuss, M.C.- Phys. Rev. A. 88 042702 (2013) Total electron-scattering cross sections from pyrimidine as measured using a magnetically confined experimental system [AMDIS Molecule] C4H4N2
  21. Karwasz, G.P. - Phys. Rev. A. 59 1341 (1999) Total cross sections for electron scattering on chloromethanes: Formulation of the additivity rule [AMDIS Molecule] CH3Cl
  22. Belyaev, A.K. - Astrophys. J. 868 86 (2018) Atomic Data on Inelastic Processes in Low-energy Lithium-Hydrogen Collisions [CHART Molecule] Li in H
(August 2020)
  1. Si, R. Astrophys. J. Suppl. 239:3 (2018) [AMDIS Excitation] B-like Z=24–30
  2. Lindsay, B.G. J.Chem.Phys. 112 p9404 (2000) [AMDIS Molecule] NO, NO2
  3. Pal, S. J. J. Electr. Spectros. and Rel. Pheno. 109 p227-232 (2000) [AMDIS Molecule] H2
  4. Lecointre, J. J.Phys.B. 46 205201 (2013) [AMDIS ionization] C+, N+, O+
  5. Muse, J. J.Phys.B. 41 095203 (2008) [AMDIS Molecule] H2, N2
  6. Novotny, O. Astrophys. J. 792 p132 (2014) [AMDIS Molecule] NH+
  7. Elabidi, H. Adv. Space Res. (2014) [AMDIS Excitation] Al, Mg
  8. Machacek, J.R. Phys.Rev.A 052708 (2014) [CHART] He, H2 in O6+
  9. Van Zyl J. Geophys. Res. Space Phys. 111 p6925-6939 (2014)[CHART] H, H+ in O, O2
  10. Spruck, K. Phys.Rev.A 90 032715 (2014) [AMDIS recombination] W
  11. Hahn, M. Astrophys. J. 788 p46 (2014) [AMDIS recombination] Fe
  12. Kwon, D.-H. Int.J.Mol.Sci. 252 p213-221 (2005) [AMDIS ionization] W
  13. Kwon, D.-H. Int.J.Mol.Sci. 245 p26-35 (2005) [AMDIS ionization] Mo
  14. Talukder, M.R. Eur.Phys.J.D 46 p281-287 (2008) [AMDIS ionization] H, He, Li, C, N, O, F, Ne, Na, Mg, Al, Si, P, S, Cl, Ar, Fe, Cu, Ga, Ge, As, Se, Br, Kr, Ag, In, Sn, Sb, Te, I, Xe, Ba, Hg, Pb, Bi, U,
  15. Tsipinyuk, B. Int.J.Mol.Sci. 328-329, 2-16 (2012) [AMDIS ionization] H, He, C, N, O, F, Ne, Na, Mg, Al, Si, P, S, Cl, Ar, Ca, Ti, V, Fe, Ni, Cu, Ga, He, As, Se, Br, Kr, Rb, Sr, Ag, In, Sn, Sb, Te, I, Xe, Cs, Ba, Yb, Hg, Pb, Bi, U
(Aug. 2019)
  1. Talukder, M.R. Eur.Phys.J.D 49 p167-172 (2008) [AMDIS ionization] He
  2. Belic, D.S. J.Phys.B 43 185203 (2010) [AMDIS ionization] Ar
  3. Talukder, M.R. Eur.Phys.J.D 53 p133-139 (2009) [AMDIS ionization] He, Li+, B+, C+, O2+, Ne2+, Na, Mg, Al3+, S, Ar+, Ar3+
  4. Jha, L.K. Eur.Phys.J.D 40 p101-106 (2006) [AMDIS ionization] Ar
  5. Ali, M.A. Int.J.Mol.Sci. 271 p51-57 (2008) [AMDIS ionization] He, Ne, Ar
  6. Borovik Jr. J. Phys. B 42 025203 (2009) [AMDIS ionization] Li+
  7. Elizarov, A.Y. J. Phys. B 39 p1395-1407 (2006) [AMDIS ionization] Li, Be+, B2+, C3+, N4+ O5+
  8. Haque, A.K.F Phys.Rev.A 73 052703 (2006) [AMDIS ionization] Li,Be+,B2+,O5+,Ne7+,U89+, B+, C2+, N3+, O4+, Ne6+, U88+, C+, N2+, O3+, Ne5+, C, O2+, N+, Ne4+, N, F2+, Ne3+, Ni7+, Ne2+, Si6+, Ne+, Si5+, Mg2+, U82+
  9. An, Z. Nucl. Instrum. Methods Phys.Res.B 246 p281-287 (2006) [AMDIS ionization] Ti, Cu, Ag, Au,
  10. Deutsch, H. Int.J.Mass Spec. 271 p58-62 (2008) [AMDIS ionization] Fe, Xe, Ti, Cr, Ni, Zn, Sr, Zr, Pb, Cd, Mo, W,
  11. Landi E. Atomic Data and Nuclear Tables 98 p862-893 (2012) [AMDIS Excitation] Ni14+
  12. Fontes, C.J. Atomic Data and Nuclear Tables 100 p802-832 (2014) [AMDIS Excitation] B-like ions 26 <= Z <= 92
  13. Fontes, C.J. Atomic Data and Nuclear Tables 100 p1292-1321 (2014) [AMDIS Excitation] N-like ions 26 <= Z <= 92
  14. Liang Liang Atomic Data and Nuclear Tables 100 p1059-1109 (2014) [AMDIS Excitation] Nb11+, Mo12+
  15. Malespin, C. Astron.&Astrophy 526 A115 (2011) [AMDIS Excitation] H-like Cr, Mn, Fe, Co, Ni
  16. Fontes, F.J. Atomic Data and Nuclear Tables 113 p293-315 (2017) [AMDIS Excitation] F-like ions & Na-like ions 26 <= Z <= 92
  17. Zhang, H.L. Atomic Data and Nuclear Tables 113 p416-430 (2013) [AMDIS Excitation] Be-like ions 26 <= Z <= 92
  18. Jones, Robert K. J.Chem.Phys. 84 813 (1986) [AMDIS Molecule] CCl4, CCl3F, CCl2F2, CClF3, CF4
  19. Szmy-tkowski, C. hem. Phys. Lett. 199 p191-197 (1992) [AMDIS Molecule] CF4, CCl
(July 2018)
  1. Munoz, A. J.Phys.Conf.Ser. 133 012002 (2008) [AMDIS Molecule] H2O
  2. Fremont, F. Phy.Rev.A 74 012717 (2006) [AMDIS Molecule] H2O
  3. Vinodkumar, M. Eur.Phys.J.D 61 p579-585 (2011) [AMDIS Molecule] H2O
  4. Zheng, R. Phys. Scr. 80 015301 (2009) [AMDIS Molecule] H2O
  5. Munoz, A. Int.J.Mass Spec. 277 p175-179 (2008) [AMDIS Molecule] H2O
  6. Sossah, A.M. Astrophys.J.Sup.Ser. 020:12 (2012) [AMDIS Excitation] Cl2+
  7. Kristic, P.S. Nucl. Instrum. Methods Phys.Res.B 241 p.58-62 (2005) [CHART Molecule] H in H2
  8. Maier, W.B. J.Chem.Phys. 54 p.2732-2739 (1971) [CHART Molecule] H in D2
  9. Koopman, D.W. Phys.Rev. 154 p.79 (1967) [CHART]H, H2, He in H2, Ar, Kr, Xe
  10. Gearly, M.W. Phys.Rev.A 36 p.3091 (1987) [CHART] H in H. H2
  11. Celiberto, R. C Chem. Phys 398 p.206-213 (2012) [AMDIS Molecule] H2
  12. Rieger, G. J.Phys.B 33 p.5387-5395 (2000) [CHART] C, N in Li
  13. Liang, G.Y. Astron.&Astrophys 547 A87 (2012) [AMDIS Excitation] Cr7+
  14. Brigg, W.J. J.Phys.B 47 185203 (2014) [AMDIS Molecule] CH4
  15. Aggarwal, K.M. Astron.&Astrophys 506 p.1501-1509 (2009) [AMDIS Excitation] Cr7+
(April 2015)
  1. Hahn, M. Astrophys. J. 767 p47 (2013) [AMDIS ionization] Fe16+ and Fe17+
  2. Oualim, E.M. Nucl. Instrum. Methods Phys.Res.B 98 p150-153 (1995) [AMDIS ION] Kr8+ - Kr13+
  3. Hahn, M. Phys. Rev. A 85 042713 (2012) [AMDIS ionization]S12+
  4. Vainshtein, L. J. Phys. B 44 125201 (2012) [AMDIS ionization] W+
  5. Ballance, C.P. J. Phys. B 43 205201 (2010) [AMDIS recombination] W35+
  6. Safronova, U.I. J. Phys. B 44 035005 (2011)[AMDIS recombination] W27+
  7. Safronova, U.I. J. Phys. B 45 085001 (2012)[AMDIS recombination] W4+
  8. Safronova, U.I. J. Phys. B 44 225002 (2011)[AMDIS recombination] Ni10+
  9. Safronova, U.I. J. Phys. B 42 015001 (2009)[AMDIS recombination] Xe8+, Xe7+
  10. Safronova, U.I. J. Phys. B 44 225002 (2011)[AMDIS recombination] Ni10+
  11. Ali, S. Astron.&Astrophys 557 A2 (2013) [AMDIS recombination] F5+
  12. Lestinsky, M. Astrophys. J. 758 p40 (2012) [AMDIS recombination] Mg7+
  13. Lestinsky, M. Astrophys. J. 698 p648-659 (2009) [AMDIS recombination] Fe10+, Fe11+
  14. Mahmood, S. Astrophys. J. 771 p78 (2013) [AMDIS recombination] Ne5+
  15. Cho, H J. Phys. B. 37 p625-634 (2004) [AMDIS molecule] H2O
  16. Khakoo, M.A. Phys. Rev. A 79 052711 (2009) [AMDIS molecule] H2O
  17. Novotny, O Astrophys. J. 777 p54 (2013) [AMDIS molecule] HCl+
  18. Zywicka, B. Eur. Phys. J. Special Topics 222 p2285-2292 (2013) [AMDIS molecule] platinum chemotherapeutic compounds
  19. Zywicka, B. Eur. Phys. J. D 66 p54 (2012) [AMDIS molecule] cisplatin
  20. Szmytkowski, C. J. Phys. B 44 205202 (2012) [AMDIS molecule] (CF3)2CO (hexafluoroacetone)
  21. Szmytkowski, C. J. Phys. B 46 065203 (2013) [AMDIS molecule] 1-pentene, H2C=CH-(CH2)2CH3
  22. Szmytkowski, C. Phys. Rev. A 75 052721 (2007) [AMDIS molecule] N(CH3)3 (trimethylamine)
  23. Eckstein, W. Topics in applied physics 110 (2007) [SPUTY]
(May 2014)
  1. Lindsay, B.G. J.Phys.B 38 p1977-1986 (2005) [CHART molecule] H in CH4
  2. Sanders, J.M. J.Phys.B 36 p3835-3846 (2003) [CHART molecule] H in H2, CH4, C2H2, C2H4, C2H6, C3H6
  3. Seredyuk, B. Phys.Rev.A 71 022713 (2005) [CHART molecule] He2+ in CH4
  4. Kimura, M. Phys.Rev.A 32 p802-809 (1985) [CHART molecule] H+ + H2
  5. Brunger, M.J. Int. J. Mass Spectrom. 271 p80-84 (2008) [AMDIS molecule] H2O
  6. Hargreaves, L. J. Phys. B 45 201001 (2012) [AMDIS molecule] H2O
  7. Khakoo, M.A. Phys. Rev. A 78 052710 (2008) [AMDIS molecule] H2O
  8. Thorn, P.A. J. Phys. B. 40 p691-708 (2007) [AMDIS molecule] H2O
  9. Thorn, P. PhD Thesis Flinders Univ. (2008) [AMDIS molecule] H2O
(August/2013)
  1. Suno, H. Phys. Rev. A 70 032703 (2004) [CHART molecule] H + CH2
  2. Toburen, L.H. Phys. Rev. 171, p114 (1968) [CHART molecule] H in H2, He, Ar, Kr, N2, O2, CO, CO2, H2O, CnHn gas
  3. Barnett, C.F. Phys. Rev. 109, p385 (1958) [CHART molecule] H in H2, He, N2, O2, Ne and Ar gas
  4. Allison, S.K. Reviews of Modern Physics 30 p1137 (1958) [CHART molecule] H in H2, He, N2, O2, Ne and Ar gas
  5. Aggarwal, K.M. Astron.&Astrophys 441 p831-837 (2005) [AMDIS Excitation] Ar16+
  6. Rapp, D. J. of Chem. Phys. 43 p1480 (1965) [AMDIS Molecule] O2, CO, NO, CO2, N2
  7. Hahn, M. Astrophys. J. 760 p80 (2012) [AMDIS Excitation] Fe9+
  8. Aggarwal, K.M. Astron.&Astrophys. 487 p383-388 (2008) [AMDIS Excitation] Ar17+
  9. Aggarwal, K.M. Physica Scripta 85 025305 (2012) [AMDIS Excitation] Mg10+, Al11+,P13+, S14+
  10. Tayal, S.S. Phys. Rev. A 34 p1847-1855 (1086) [AMDIS Excitation] C4+
  11. Aggarwal, K.M. Physica Scripta 81 015303 (2010) [AMDIS Excitation] N9+, F6+, Ne7+, Na8+
  12. Aggarwal, K.M. Physica Scripta 69 p385-397 (2004) [AMDIS Excitation] C3+
  13. Del Zanna, G. Astron.&Astrophys. 541 A90 (2012) [AMDIS Excitation] Fe9+
  14. Novotny, O. Astrophys. J. 753 57 (2012) [AMDIS Recombination] Fe11+, Fe10+
  15. Wang, K. Atomic Data and Nuclear Tables 98 p779-797 (2012) [AMDIS Excitation] Ni13+
  16. Di, L. Atomic Data and Nuclear Tables 98 p437-480 (2012) [AMDIS Excitation] Ne6+
  17. Aggarwal, K.M. Atomic Data and Nuclear Tables 95 p607-750 (2009) [AMDIS Excitation] Kr31+
  18. Ali, S. Astrophys. J. 753 132 (2012) [AMDIS Recomibination] C+
  19. Tayal, S.S. Astron.&Astrophys. 541 A61 (2012) [AMDIS Excitation] Si7+
  20. Hudson, C.E. Astron.&Astrophys. 537 A12 (2012) [AMDIS Excitation] Ni16+
  21. Dunne, L.J. Chem. Phys. Lett. 336 1 (2001) [CHART Molecule] LiH
  22. Dillon, M.A. J. Phys. B 26 p3147-3158 (1993) [AMDIS Molecule] GeH4
  23. Karwasz, G.P. J.Phys. B 28 p1301-1309 (1995) [AMDIS Molecule] GeH4
  24. Naghma, R. J. Phys. B 44 105204 (2011) [AMDIS ION] Z=49-54
(April/2013)
  1. Galavis, M.E. Astron.Astrophys.Suppl.Ser. 133, p245-248 (1998) [Ionization] Ar +2
  2. Wang, K. J.Phys.B 43,175202 (2010) [Excitation] Ni +13
  3. Trazhaskovkaya, M.B. Atomic Data and Nuclear Tables 95 p987-1050 (2009) [Recombination] Si, Cl, Ar, Ti, Cr, Kr, Xe
  4. Naghma, R. J.Phys.B 44 105204 (2011) [Ionization] Z=49-54
  5. Karwasz, G.P. J.Phys.B 28 p1301-1309 (1995) [AMDIS Molecule] GeH4
  6. Dillion, M.A. J.Phys.B. 26 p3147-3158 (1993) [AMDIS Molecule] GeH4
  7. Dunne, L.J. Chem.Phys.Lett. 336 p1-6 (2001) [CHART Molecule] LiH
  8. Hudson, C.E. Astron.&Astrophys. 537 A12 (2012) [Excitation] Ni +16
  9. Tayal, S.S. Astron.&Astrophys. 541 A61 (2012) [Excitation] Si +7
  10. Ali, S. Astrophys.J. 753 132 (2012) [Recombination] C +1
  11. Aggarwal K.M. Atomic Data and Nuclear Tables 95 p607-750 (2009) [Excitation] Kr +31
  12. Di, L. Atomic Data and Nuclear Tables 98 p437-480 (2012) [Excitation] Ne +6
  13. Wang, K. Atomic Data and Nuclear Tables 98 p779-797 (2012) [Excitation] Ni +13
  14. Novotny, O. Astrophys. J. 753 57 (2012) [Recombination] Fe +11
(August/2012)