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I hope someone improves this article so that it defines the Veblen function. Right now it simply seems to state a bunch of properties of this function, without asserting that some set of properties characterizes it. John Baez (talk) 06:08, 4 November 2012 (UTC)[reply]
In the lead it gives the general definition, "If φ0 is any normal function, then for any non-zero ordinal α, φα is the function enumerating the common fixed points of φβ for β<α.". In the first section, it defines "Veblen hierarchy" by specifying that "In the special case when φ0(α)=ωα, this family of functions is known as the Veblen hierarchy.". JRSpriggs (talk) 10:15, 4 November 2012 (UTC)[reply]
The Feferman–Schütte ordinal, Γ0, is the smallest nonzero ordinal which is neither the sum of smaller ordinals nor a value of the binary Veblen hierarchy applied to smaller ordinals. It contains ω and all finite ordinals. It is also closed under: multiplication, exponentiation, and the function enumerating the epsilon-numbers. Other values of Γα are also closed under the same functions.
SVO = ΓSVO has those closure properties and is also closed under the mapping by the finitary Veblen hierarchy of functions of finite support from ω to SVO (regarded as elements of Κω) to Κ.
LVO = ΓLVO has the above closure properties and is also closed under the mapping by the transfinitary Veblen hierarchy of functions of finite support from LVO to LVO (regarded as elements of ΚΚ) to Κ.
The definitions given above are recursive, that is, they use the thing being defined to help define it. This raises the possibility that they may be invalid. So for some time I looked for a way to prove that they are valid without success. Now, I think that ZFC may be too weak to provide such proofs. Nonetheless, I am confident that at least the binary Veblen hierarchy is OK. See reverse mathematics, ordinal analysis, and proof theoretic ordinals. JRSpriggs (talk) 19:02, 3 September 2022 (UTC)[reply]
I haven't read the formula in full, but for n+2-ary φ, recursion on the lexicographic ordering of Kn+2 where K is an uncountable regular cardinal looks like enough. Here n+2-ary φ is defined as usual and it's claimed that this construction is well-defined by recursion on the lexicographic ordering of Kn+2. Since each lex ordering on Kn+2 is an initial segment of the lex ordering for Kn+3, the full K<ω ordering should be enough for all of finitary φ with inputs <K. C7XWiki (talk) 18:54, 3 November 2022 (UTC)[reply]
In many contexts, it would just be called a sequence. But in set theory (which is more general), you need to specify the domain and range more precisely. An ω-sequence is a function (mathematics) whose domain is ω and whose range is (usually, but not necessarily) a set of ordinals. JRSpriggs (talk) 03:34, 3 November 2023 (UTC)[reply]