Fekete's (subadditive) lemma takes its name from a 1923 paper by the Hungarian mathematician Michael Fekete [1]. A historical overview and references to (a couple of) generalizations and applications of the result are found in Steele's book on probability and combinatorial optimization [2, Section 1.10], where a special mention is made to the work of Pólya and Szegő on the structure of real sequences and series [3, Ch. 3, Sect. 1] and that of Hammersley [4], motivated by percolation theory, on subadditive functions, the continuous analogue of subadditive sequences, whose systematic study was initiated, as far as I know, by Hill and Phillips in the 1957 edition of their beautiful monograph on functional analysis and semigroups [5, Ch. VII]. The same Steele acknowledges that his own 1989 proof of Kingman's subadditive ergodic theorem [6], of which Birkoff's celebrated theorem is a corollary, was eventually inspired by Fekete's lemma. Now, my question is:
Can you point out generalizations (and corresponding (interesting) applications) of Fekete's lemma?
Bibliography.
[1] M. Fekete (1923), Über die Verteilung der Wurzeln bei gewissen algebraischen Gleichungen mit. ganzzahligen Koeffizienten, Math. Zeit., Vol. 17, pp. 228-249.
[2] M.J. Steele, Probability theory and combinatorial optimization, SIAM, Philadelphia, 1997.
[3] G. Pólya and G. Szegő, Problems and Theorems in Analysis, Vol. I, Springer-Verlag, Berlin, 1998 (reprint of the 1978 Edition).
[4] J.M. Hammersley (1962), Generalization of the fundamental theorem of subadditive functions, Proc. Cambridge Philos. Soc., Vol. 58, pp. 235-238.
[5] E. Hille and R.S. Phillips, Fucntional analysis and semi-groups, American Math. Soc., 1996 (revised edition).
[6] J.M. Steele (1989), Kingman's subadditive ergodic theorem, Annales de l'I.H.P., Section B, Vol. 25, No. 1, pp. 93-98.