The Orin Fractional Calculus

[benorin]

Table of Contents
ToggleIntroductionSummarySection 1Section 2Section 3Section 4Section 5The Integrals of...

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[mathman]

Do you have a specific question? $\lim_{N\to \infty} C_N^n=[0,1)$ is straightforward.

 

[benorin]

Yes, it is, I had used that particular definition of $C_N^n$ with the $\leq n-1$ (opposed to $\leq n$) to accommodate and singular point of an a few integrands in section 4, whereas the latter would converge to $\left[ 0,1\right]$. These two definitions cover all of the integrals in the text.

 

[benorin]

I updated the Insight to include more exercises in sections 4 and 5 and added a few answers to section 1 at the end.

 

[benorin]

A few days ago I added the rest of the solutions to the exercises in section 1 (at the end of the document).

 

[benorin]

I just wanted to say that God gave me every bit of skills, inspiration, people who helped me flesh this note out over the years I worked on it. Some people that helped me after having worked on this note throughout college and finally having had my analysis prof Akemann from UCSB read what was the beginnings of this note, of which he said what I was working with wasn’t well defined, and some years past. A couple of years ago God told me the finish my paper (I learned the other day that this work is called a note, because papers are published-I had been calling it my paper for quite a long time tho) so I came to PF and I got help from @fresh_42 and @FactChecker with and actually quite a lot of other math people here on PF helped (that would be a long list but I will just say search threads started by me and containing the word paper and from these search results you can see all the help I got, also there’s an Insights and Blog dev sub forum which is hidden by default with a few more threads with several advisors who also helped me).

Everything just came together those last few months I was writing this. I believe I had better defined what kind of integrals I was working over the limit of a sequence of nested sets using dominated convergence theorem which a suggestion iirc I got here on PF, I had the desire to extend the results I had derived (the n-fold integral representations of the Lerch Transcendent family of functions) and my results had an integer valued parameter n (the number of iterated integrals) I had wanted to analytically continue to a complex variable and I had the vague general notion the I could use fractional integrals to do this but hadn’t the foggiest idea what were or how to evaluate and integrals of this type until in my reading I stumbled upon the Hadamard fractional integral in a paper that was way over my head but which contained a simple result i could understand, the formula for iterated integral interpolation of the Hadamard fractional integral made to the results I mentioned earlier with the integer n parameter and these combined with the hypercube to simplex transformation @FactChecker had so graciously supplied me with worked out perfectly to derive the fractional integral representations of some special functions had no clue how to obtain just a few months earlier (Lerch transcendent family of functions).

Sorry this turned into kind of long winded credit where credit is due. I do feel that God gets the credit here, having worked all things to this end.

I’m currently rewriting this note, and seek a co-author if any of you are interested? I will say that I’m neural diverse, and if you contact me being interested in being a co-author I will tell you point-blank what my issues are, I just don’t feel comfortable doing so here publicly as I’m not knowing how these types of issues are handled in math circles yet.

Sorry for the essay.

-Ben

 

[jedishrfu]

I checked and you got the spelling for your prof right

https://web.math.ucsb.edu/~akemann/

 

[benorin]

Update: I added generous hints to Section 5 exercise 4) parts a) thru f), namely the desired fractional integral is stated: still remains to be shown that the fractional integral is equal to the series definition.

 

[benorin]

The overhaul is through it's main phase, though I'm still going to post some more Answers to Exercises - Section 5. If previously you glanced at this Insight Article and found it rather too lengthy for you taste, please give it another go being as I have streamlined this work with the recommendation that you simply scan through sections 1 & 2. Sections 3 & 4 however are important for the proofs, and section 5 is the main results in terms of fractional integral representations of the Lerch Transcendent family of special functions.

Looking for co-author of this note that it might be elevated to the status of a paper. If you are interested, please say so here in the comments or send me a private message.

 

[benorin]

I have just this minute added complete solutions to Exercises in Section 4, I do now believe there's only one problem whom does not have a solution provided now. Not bad!