File Summary: -------------------------------------------------------------------------------- FileName Lrecl Records Explanations -------------------------------------------------------------------------------- Readme.TEX 80 . This file -------------------------------------------------------------------------------- Byte-by-byte Description of file: -------------------------------------------------------------------------------- Bytes Format Units Label Explanations -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Title: Absolute transition probabilities of Al I and Al II spectral lines and intensity ratios within multiplets Authors: V. Vujnovic, K. Blagoev, C. F\"urböck, T. Neger, and H. Jäger The files should be processed with Latex 2e. Table 1: Lifetimes ($\tau$) of neutral and ionized aluminum. If more than one source is cited, an average of the lifetimes was taken. Table 2: Al~I-Intensity ratios within multiplets, and transition probabilities for the simple part of the Grotrian diagram. According to Kaufman and Martin (1991) the level $3s^24d\:^2\!D$ is designated as $y\,D$, and all higher $d$ levels acquire numbers for one less than previously (5$d$ goes to 4$d$, and so on). Table 3: Al~I-Intensity ratios within multiplets for the complex part of the Grotrian diagram. Table 4: Al~II-Intensity ratios within multiplets. Table 5: Al~II-Branching ratios and transition probabilities ($A_{ki})$. The value for the transition probability of the Al~II 3900.675 \AA{} line was taken over from the work of Tayal and Hibbert (1984) (for procedure see discussion in paper). Table 6: Al~II-Transition probabilities ($A_{ki}$) calculated using results of other authors. If more than one source is cited, an average of the transition probabilities was taken. Citations (same as in paper): Andersen, T., Roberts, J.R., and Soerensen, G. 1971, Phys. Scri., 4, 52 Berry, H. G., Bromander, J., and Buchta, R. 1970, Phys. Scri. 1, 181 Buurman, E., D\"oenszelmann, A., Hansen, J. E., and Snoek, C. 1986, A\& A, 164, 224 Chang, T. N., and Wang, R. 1987, Phys. Rev. A, 36, 3535 Davidson, M. D., Volten, H., and D\"oenszelmann, A. 1990, A\& A, 238, 452 Froese-Fischer, C., and Godefroid, M. 1982, Nucl. Instrum. Meth., 202, 307 Head, M. E. M., Head, C. E., and Lawrence, J. N. 1976, in Atomic Structure and Lifetimes, ed. F. A. Sellin, \& D. J. Pegg (NY: Plenum), 147 Johnson, B. C., Smith, P. L., and Parkinson, W. H. 1986, ApJ, 308, 1013 Kernahan, J. A., Pinnington, E. H., O'Neill, J. A., Brooks, R. L., and Donelly, K. E. 1979, Phys. Scri., 19, 267 Smith, W. H. 1970, NIM, 90, 115 Tayal, S. S., and Hibbert, A. 1984, J. Phys. B, 17, 3835 Trabert, E., Wolf, A., and Linkemann, J. 1999, J. Phys. B, 32, 637 Victor, G. A., Stewart, R. F., amd Laughlin, C. 1976, ApJS, 31, 237 Weiss, A. W. 1967, J. Chem. Phys., 47, 3573 Wiese, W. L., and Martin, G. A. 1980, Transition Probabitlities, Part II, Vol. Natl. Stand. Ref. Data System., Natl. Bur. Std. 68 (Washington DC) Zare, R. N. 1967, J. Chem. Phys., 47, 3561 ================================================================================ (End) [CDS?] 2002-Jun-28