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Recursive formula generating bounded hyper-operators
#1
Hello everybody. So I've come across the following formula for all hyper-operators with base . There are a few holes in my proof of how to construct these functions, but the holes are more than anything superficial, and in fact have more to do with showing inconsequential details of the solution. The formulas all work out.
Consider the following construction. Let us start with



and define



recursively using the following formulas




So that exponentiation equals



which follows from the usual binomial formula. And then tetration (which is well known, this I can prove absolutely without a doubt)



But not so obviously, and definitely not through little work, this works for pentation



This construction works using a proof by induction. There are some cracks in the proof so far, but nonetheless everything is in working order. The only missing pieces are to do with some problems in integral calculus. I can state them here for working order, if someone is curious. I could elaborate on how these functions are constructed, but if one is interested, the entire construction, in its full working order is here https://arxiv.org/pdf/1503.07555.pdf Minus the simple proof that these functions can be expanded in a newton series. Essentially fivexthethird gave the basis of this proof, since then I've made it more rigorous, he talks in the case of one example, but it works in the case of all bounded functions http://math.eretrandre.org/tetrationforu...ht=tpid+13
  
I must note, the problem with the paper I posted is in fact rather minute. The paper is a little disorganized, I'm trying to complete it right now. The major problem is arguing more rigorously why some of the integral transforms do in fact converge, of which I'm in the process of finalizing.

Nonetheless the most important thing I've been asking myself lately is something really rather simple, it has to do with the Newton construction. The exact functions I have defined.

Does have an imaginary period such that for all ? Do the hyper-operators with these bases always have an imaginary period? For tetration and for exponentiation this follows trivially. It is something inherent to their definition. What is great about this question though, is that it has many incarnations, it extends very far.

If then this question can be rephrased as: is ?

This question can also be rephrased as if , is for all ?

and lastly: If and  then is analytic for all ?

I could restate this question in many ways, but it gives me no advantage at showing it. Therefore I am stuck. And I call upon somebody to at least give me numerical evidence that these functions generated through Newton series are in fact periodic with imaginary period. That pentation in the interval is periodic with imaginary period. That hexation in the interval is periodic with imaginary period.

I believe this is a great question about the regularity of iteration. That in fact every hyper operator with base has an imaginary period (at least when using the standard Schroder iteration).
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