Harold Simmons defined a simple but powerful notation for transfinite ordinals.
In summary :
- It uses lambda calculus formalism
- Fix f z = f^ω (z+1) = limit of z+1, f(z+1), f(f(z+1)), ... ; ; it is the least fixed point of f strictly greater than z
- Next = Fix (a -> ω^a) ; Next a is the least ε_b strictly greater than a, for example ε_0 = Next 0 = Next ω, and ε_a = Next^(1+a) 0 = Next^(1+a) ω
-  h = Fix (a -> h^a 0)
-  h g = Fix (a -> h^a g 0)
-  h g f = Fix (a -> h^a g f 0)
There is a correspondence with Veblen's φ function, for example φ(1+a,b) = (^a Next)^(1+b) 0.
Simmons defines a sequence whose limit is the Bachmann-Howard ordinal :
- Δ = ω
- Δ = Next ω = ε_0 = φ(1,0)
- Δ =  Next ω = ζ_0 = φ(2,0)
- Δ =   Next ω = Γ_0 = φ(1,0,0)
- Δ =    Next ω = large Veblen ordinal
At first sight, it seems to me that ω could be replaced by 0 in these formulas.
For example :
-  Next 0 = Fix (a -> Next^a 0) 0 = limit of 1, Next 0 = ε_0, Next^ε_0 0 = ε_ε_0, ... = ζ_0
-  Next ω = Fix (a -> Next^a 0) ω = limit of ω+1, Next^(ω+1) 0 = ε_(ω+1), Next^(ε_(ω+1)) 0 = ε_ε_(ω+1), ... = ζ_0
Do you agree with this ?
Have you an idea about the reason for which Simmons chose to use ω instead of 0 in his formulas ?
Do you know if there are standard forms, fundamental sequences and a comparison algorithm for this notation ?
For the fundamental sequences I have an idea : perhaps we could take z+1, f(z+1), f(f(z+1)), ... as a fundamental sequence for Fix f z, is this correct?
For the discussion of math. Duh.
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