Difference between revisions of "Superfunctions"
(17 intermediate revisions by the same user not shown)  
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−  <div class="thumb tright" style="float:right;width:284px"> 

−  <div style="width:300px"> 

−  [[File:437front.jpg300px]]<small> 

−  Cover of preliminary version of the Book</small> 

−  
−  [[File:437back.jpg300px]] 

−  Back cover of the Book 

−  
−  [[File:Tetreal10bx10d.png300px]]<small> 

−  Explicit plot from the Book: [[tetration]]. 

−  \(y=\mathrm{tet}_b(x)\) versus \(x\) for various \(b\!>\!1\), Fig.17.1 

−  </small> 

−  
−  [[File:Ausintay40t50.jpg300px]]<small> 

−  [[Complex map]] from the Book: truncated Taylor expansion of abelsine [[AuSin]], Fig.22.2 

−  </small> 

−  </div></div> 

−  <div class="thumb tright" style="float:right;width:134px"> 

−  <div style="width:150px"> 

−  
−  [[File:Oglavleni.png150px]] 

−  Literature cited in the Book, Fig.21.1 

−  
−  [[File:Bookwormbw.png150px]] 

−  Literature not cited in the Book, Fig.21.3 

−  </div></div> 

−  
[[Superfunctions]] is book about evaluation of [[abelfunction]]s, [[superfunction]]s, and the noninteger [[iterate]]s of holomorphic functions. 
[[Superfunctions]] is book about evaluation of [[abelfunction]]s, [[superfunction]]s, and the noninteger [[iterate]]s of holomorphic functions. 

In particular, results for [[tetration]], [[arctetration]] and [[iterate]]s of [[exponential]] are presented. 
In particular, results for [[tetration]], [[arctetration]] and [[iterate]]s of [[exponential]] are presented. 

+  https://www.morebooks.de/store/gb/book/superfunctions/isbn/9786202672863 <br> 

−  The Book is loaded as <br><b> https://mizugadro.mydns.jp/BOOK/465.pdf </b> 

+  Dmitrii Kouznetsov. Superfunctions. Lambert Academic Publishing, 2020. 

+  <div class="thumb tright" style="float:right;width:384px"> 

+  <div style="width:400px"> 

+  [[File:9786202672863full.jpg400px]] 

+  Cover at [[Lambert Academic Publishing]], 2020 

+  </div></div> 

+  The Book is loaded also as <br><b> https://mizugadro.mydns.jp/BOOK/466.pdf </b>(y.2020) 

<ref> 
<ref> 

−  +  https://mizugadro.mydns.jp/BOOK/466.pdf 

+  D.Kouznetov. Superfunctions. 2020. <br> 

−  https://mizugadro.mydns.jp/BOOK/465.pdf 

+  http://www.ils.uec.ac.jp/~dima/BOOK/443.pdf (its preliminary version) <br> 

−  D.Kouznetov. Superfunctions. 2020. 

</ref> 
</ref> 

−  There is also 
+  There is also Russian version "[[Суперфункции]]" (y. 2014) 
<ref> 
<ref> 

https://www.morebooks.de/store/ru/book/Суперфункции/isbn/9783659562020 
https://www.morebooks.de/store/ru/book/Суперфункции/isbn/9783659562020 

−  Дмитрий Кузнецов. 
+  Дмитрий Кузнецов. [[Суперфункции]]. 
ISBN13: 9783659562020 
ISBN13: 9783659562020 

ISBN10: 3659562025 
ISBN10: 3659562025 

EAN: 9783659562020 
EAN: 9783659562020 

<br> 
<br> 

−  is loaded as 
+  is loaded as<br> 
+  https://mizugadro.mydns.jp/BOOK/202.pdf <br> 

+  http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf 

<br> 
<br> 

−  https://mizugadro.mydns.jp/BOOK/202.pdf 

</ref> 
</ref> 

==Covers== 
==Covers== 

+  <div class="thumb tright" style="float:right;width:194px"> 

+  <div style="width:210px"> 

+  [[File:Tetreal10bx10d.png210px]]<small> 

+  <p style="lineheight:100%"> 

+  [[Tetration]]: 

+  \(y=\mathrm{tet}_b(x)\) for various \(b\!>\!1\), Fig.17.1</p> 

+  </small> 

+  
+  [[File:Ausintay40t50.jpg210px]]<small><p style="lineheight:100%"> 

+  [[Complex mapMap]] of truncated Taylor expansion of abelsine [[AuSin]], Fig.22.2</p> 

+  </small> 

+  </div></div> 

+  <div class="thumb tright" style="float:right;width:134px"> 

+  <div style="width:150px"> 

+  
+  [[File:Oglavleni.png150px]]<small><p style="lineheight:100%"> 

+  Literature cited, Fig.21.1</p></small> 

+  
+  [[File:Bookwormbw.png150px]]<small><p style="lineheight:100%"> 

+  Literature not cited, Fig.21.3</p></small> 

+  </div></div> 

+  
At the front cover, the [[complex map]] of [[natural tetration]] is shown. 
At the front cover, the [[complex map]] of [[natural tetration]] is shown. 

−  The following topics are indicated: 
+  The following topics are indicated:<br> 
−  Noninteger iterates of holomorphic functions. 
+  Noninteger iterates of holomorphic functions.<br> 
−  [[Tetration]] and other [[superfunction]]s. 
+  [[Tetration]] and other [[superfunction]]s.<br> 
−  algorithms, tables, graphics and [[complex map]]s. 
+  Formulas, algorithms, tables, graphics and [[complex map]]s. 
The back cover suggests short abstract of the Book and few notes about the Author. 
The back cover suggests short abstract of the Book and few notes about the Author. 

Line 62:  Line 65:  
==About the topic== 
==About the topic== 

Assume some given holomorphic function \(T\). 
Assume some given holomorphic function \(T\). 

−  The superfunction is holomorphic solution F of equation 
+  The superfunction is holomorphic solution F of equation 
\(T(F(z))=F(z+1)\) 
\(T(F(z))=F(z+1)\) 

The Abel function (or abelfunction) is the inverse of superfunction, \(G=F^{1}\) 
The Abel function (or abelfunction) is the inverse of superfunction, \(G=F^{1}\) 

−  The abelfunction is solution of the Abel equation 
+  The abelfunction is solution of the Abel equation 
\(G(T(z))=G(z)+1\) 
\(G(T(z))=G(z)+1\) 

−  As the superfunction \(F\) and the abelfunction \(G=F^{1}\) are established, the \(n\)th iterate of transfer function \(T\) can be expressed as follows: 
+  As the superfunction \(F\) and the abelfunction \(G\!=\!F^{1}\) are established, the \(n\)th iterate of transfer function \(T\) can be expressed as follows: 
\(T^n(z)=F(n+G(z))\) 
\(T^n(z)=F(n+G(z))\) 

Line 78:  Line 81:  
\(T^2(z)=T(T(z)) \),<br> 
\(T^2(z)=T(T(z)) \),<br> 

\(T^3(z)=T(T(T(z))) \),<br> 
\(T^3(z)=T(T(T(z))) \),<br> 

−  and so on. The group property holds: \(T^m(T^n(z))=T^{m+n}(z)\) 
+  and so on. The group property holds: \(T^m(T^n(z))=T^{m+n}(z)\) 
The book is about evaluation of the [[superfunction]] \(F\), the [[abelfunction]] \(G\) and the noninteger [[iterate]]s of various transfer functions \(T\). 
The book is about evaluation of the [[superfunction]] \(F\), the [[abelfunction]] \(G\) and the noninteger [[iterate]]s of various transfer functions \(T\). 

−  +  Here the number of iterate is indicated as superscript; so, \(\sin^2(z)=\sin(\sin(z))\), but never \(\sin(z)^2\).<br> 

−  +  This notation is borrowed from the [[Quantum mechanics]], where \(P^2(\psi)=P(P(\psi))\), but never \(P(\psi)^2\). 

+  
−  This notation is borrowed from the [[Quantum mechanics]], where \(P^2(\psi)=P(P(\psi))\), but never \(P(\psi)^2\). 

==About the Book== 
==About the Book== 

Line 151:  Line 154:  
Most of results, presented in the book, are published in scientific journals; the links (without numbers) are supplied at the bottom. 
Most of results, presented in the book, are published in scientific journals; the links (without numbers) are supplied at the bottom. 

−  After the appearance of the first version of the Book, certain advances are observed about evaluation of [[tetration]] 
+  After the appearance of the first version of the Book (2014), certain advances are observed about evaluation of [[tetration]] 
−  of complex argument; the new algorithm is suggested 
+  of complex argument; the new algorithm is suggested <ref> 
−  <ref> 

http://journal.kkms.org/index.php/kjm/article/view/428 
http://journal.kkms.org/index.php/kjm/article/view/428 

William Paulsen. 
William Paulsen. 

Line 172:  Line 174:  
Tetration for complex bases. 
Tetration for complex bases. 

Advances in Computational Mathematics, 2018.06.02. 
Advances in Computational Mathematics, 2018.06.02. 

+  </ref>. These results are not included in the book. 

−  </ref> 

==References== 
==References== 
Revision as of 14:36, 5 August 2020
Superfunctions is book about evaluation of abelfunctions, superfunctions, and the noninteger iterates of holomorphic functions. In particular, results for tetration, arctetration and iterates of exponential are presented.
https://www.morebooks.de/store/gb/book/superfunctions/isbn/9786202672863
Dmitrii Kouznetsov. Superfunctions. Lambert Academic Publishing, 2020.
Cover at Lambert Academic Publishing, 2020
The Book is loaded also as
https://mizugadro.mydns.jp/BOOK/466.pdf (y.2020)
^{[1]}
There is also Russian version "Суперфункции" (y. 2014) ^{[2]}
Contents
Covers
At the front cover, the complex map of natural tetration is shown.
The following topics are indicated:
Noninteger iterates of holomorphic functions.
Tetration and other superfunctions.
Formulas, algorithms, tables, graphics and complex maps.
The back cover suggests short abstract of the Book and few notes about the Author.
About the topic
Assume some given holomorphic function \(T\). The superfunction is holomorphic solution F of equation \(T(F(z))=F(z+1)\)
The Abel function (or abelfunction) is the inverse of superfunction, \(G=F^{1}\)
The abelfunction is solution of the Abel equation \(G(T(z))=G(z)+1\)
As the superfunction \(F\) and the abelfunction \(G\!=\!F^{1}\) are established, the \(n\)th iterate of transfer function \(T\) can be expressed as follows: \(T^n(z)=F(n+G(z))\)
This expression allows to evaluate the noninteger iterates. The number n of iterate can be real or even complex. In particular, for integer \(n\), the iterates have the common meaning: \(T^{1}\) is inverse function of \(T\),
\(T^0(z)=z\),
\(T^1(z)=T(z)\),
\(T^2(z)=T(T(z)) \),
\(T^3(z)=T(T(T(z))) \),
and so on. The group property holds: \(T^m(T^n(z))=T^{m+n}(z)\)
The book is about evaluation of the superfunction \(F\), the abelfunction \(G\) and the noninteger iterates of various transfer functions \(T\).
Here the number of iterate is indicated as superscript; so, \(\sin^2(z)=\sin(\sin(z))\), but never \(\sin(z)^2\).
This notation is borrowed from the Quantum mechanics, where \(P^2(\psi)=P(P(\psi))\), but never \(P(\psi)^2\).
About the Book
Tools for evaluation of superfunctions, abelfunctions and noninteger iterates of holomorphic functions are collected. For a giver transfer function T, the superfunction is solution F of the transfer equation F(z+1)=T(F(z)) . The abelfuction is inverse of F. In particular, thesuperfunctions of factorial, exponent, sin; the holomorphic extensions of the logistic sequence and of the Ackermann functions are suggested. from ackermanns, the tetration (mainly to the base b>1) and pentation (to base e) are presented. The efficient algorithm for the evaluation of superfunctions and abelfunctions are described. The graphics and complex maps are plotted. The possible applications are discussed. Superfunctions significantly extend the set of functions that can be used in scientific research and technical design. Generators of figures are loaded to the site TORI, http://mizugadro.mydns.jp for the free downloading. With these generators, the Readers can reproduce (and modify) the figures from the Book. The Book is intended to be applied and popular. I try to avoid the complicated formulas, but some basic knowledge of the complex arithmetics, Cauchi integral and the principles of the asymptotical analysis should help at the reading.
About the Author
Dmitrii Kouznetsov
Graduated from the Physics Department of the
Moscow State University (1980). Work: USSR, Mexico, USA, Japan.
Century 20: Proven the
quantum stability of the optical soliton, suggested
the low bound of the quantum noise of nonlinear
amplifier, indicated the limit of the single mode
approximation in the quantum optics.
Century 21:
Theorem about boundary behaviour of modes of Dirichlet laplacian,
Theory of ridged atomic mirrors, formalism of superfunctions, TORI axioms.
Summary
The summary suggests main notations used in the Book:
\(T\)\( ~ ~ ~ ~ ~\) Transfer function
\(T\big(F(z)\big)=F(z\!+\!1)\) \(~ ~ ~\) Transfer equation, superfunction
\(G\big(T(z)\big)=G(z)+1\) \(~ ~ ~\) Abel equation, abelfunction
\(F\big(G(z)\big)=z\) \(~ ~ ~ ~ ~\) Identity function
\(T^n(z)=F\big(n+G(z)\big)\) \(~ ~ ~\) \(n\)th iterate
\(\displaystyle F(z)=\frac{1}{2\pi \mathrm i} \oint \frac{F(t) \, \mathrm d t}{tz}\) \(~ ~ ~\) Cauchi integral
\(\mathrm{tet}_b(z\!+\!1)=b^{\mathrm{tet}_b(z)}\) \(~ ~ ~\) tetration to base \(b\)
\(\mathrm{tet}_b(0)=1\) \(~, ~ ~\) \( \mathrm{tet}_b\big(\mathrm{ate}_b(z)\big)=z\)
\(\mathrm{ate}_b(b^z)=\mathrm{ate}_b(z)+1\) \(~ ~\) arctetration to base \(b\)
\(\exp_b^{~n}(z)=\mathrm{tet}_b\big(n+\mathrm{ate}_b(z)\big)\) \(~ ~\) \(n\)th iterate of function \(~\) \(z\!\mapsto\! b^z\)
\(\displaystyle \mathrm{Tania}^{\prime}(z)=\frac{\mathrm{Tania}(z)}{\mathrm{Tania}(z)\!+\!1}\) \(~ ~\) Tania function,\(~\) \(\mathrm{Tania}(0)\!=\!1\)
\(\displaystyle \mathrm{Doya}(z)=\mathrm{Tania}\big(1\!+\!\mathrm{ArcTania}(z)\big)\) \(~ ~\) Doya function
\(\displaystyle \mathrm{Shoka}(z)=z+\ln(\mathrm e^{z}\!+\!\mathrm e \!\! 1)\) \(~\) Shoka function
\(\displaystyle \mathrm{Keller}(z)=\mathrm{Shoka}\big(1\!+\!\mathrm{ArcShoka}(z)\big)\) \(~ ~\) Keller function
\(\displaystyle \mathrm{tra}(z)=z+\exp(z)\) \(~ ~ ~\) Trappmann function
\(\displaystyle \mathrm{zex}(z)=z\,\exp(z)\) \(~ ~ ~ ~\) Zex function
\(\displaystyle \mathrm{Nem}_q(z)=z+z^3+qz^4\) \(~ ~ ~ ~\) Nemtsov function
Recent advance
Most of results, presented in the book, are published in scientific journals; the links (without numbers) are supplied at the bottom.
After the appearance of the first version of the Book (2014), certain advances are observed about evaluation of tetration of complex argument; the new algorithm is suggested ^{[3]}^{[4]}^{[5]}^{[6]}. These results are not included in the book.
References
 ↑
https://mizugadro.mydns.jp/BOOK/466.pdf
D.Kouznetov. Superfunctions. 2020.
http://www.ils.uec.ac.jp/~dima/BOOK/443.pdf (its preliminary version)
 ↑
https://www.morebooks.de/store/ru/book/Суперфункции/isbn/9783659562020
Дмитрий Кузнецов. Суперфункции.
ISBN13: 9783659562020
ISBN10: 3659562025
EAN: 9783659562020
is loaded as
https://mizugadro.mydns.jp/BOOK/202.pdf
http://www.ils.uec.ac.jp/~dima/BOOK/202.pdf
 ↑ http://journal.kkms.org/index.php/kjm/article/view/428 William Paulsen. Finding the natural solution to f(f(x))=exp(x). Korean J. Math. Vol 24, No 1 (2016) pp.81106.
 ↑ https://link.springer.com/article/10.1007/s1044401795241 William Paulsen, Samuel Cowgill. Solving F(z + 1) = b F(z) in the complex plane. Advances in Computational Mathematics, December 2017, Volume 43, Issue 6, pp 1261–1282
 ↑ https://search.proquest.com/openview/cb7af40083915e275005ffca4bfd4685/1?pqorigsite=gscholar&cbl=18750&diss=y Cowgill, Samuel. Exploring Tetration in the Complex Plane. Arkansas State University, ProQuest Dissertations Publishing, 2017. 10263680.
 ↑ https://link.springer.com/article/10.1007/s1044401896157 William Paulsen. Tetration for complex bases. Advances in Computational Mathematics, 2018.06.02.
The book combines the main results from the following publications:
http://www.ams.org/mcom/200978267/S0025571809021887/home.html
http://mizugadro.mydns.jp/PAPERS/2009analuxpRepri.pdf
D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex zplane. Mathematics of Computation 78 (2009), 16471670.
http://www.jointmathematicsmeetings.org/journals/mcom/201079271/S0025571810023422/S0025571810023422.pdf
http://www.ams.org/journals/mcom/201079271/S0025571810023422/home.html
http://eretrandre.org/rb/files/Kouznetsov2009_215.pdf
http://www.ils.uec.ac.jp/~dima/PAPERS/2010q2.pdf
http://mizugadro.mydns.jp/PAPERS/2010q2.pdf
D.Kouznetsov, H.Trappmann. Portrait of the four regular superexponentials to base sqrt(2). Mathematics of Computation, 2010, v.79, p.17271756.
http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1
http://mizugadro.mydns.jp/PAPERS/2010superfae.pdf
D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.612.
http://www.ils.uec.ac.jp/~dima/PAPERS/2010vladie.pdf
http://mizugadro.mydns.jp/PAPERS/2010vladie.pdf
D.Kouznetsov. Tetration as special function. Vladikavkaz Mathematical Journal, 2010, v.12, issue 2, p.3145.
http://www.springerlink.com/content/qt31671237421111/fulltext.pdf?page=1
D.Kouznetsov, H.Trappmann. Superfunctions and square root of factorial. Moscow University Physics Bulletin, 2010, v.65, No.1, p.612
http://mizugadro.mydns.jp/t/index.php/Place_of_science_in_the_human_knowledge D.Kouznetsov. Place of science and physics in human knowledge. English translation from http://ufn.ru/tribune/trib120111 Russian Physics:Uspekhi, v.191, Tribune, p.19 (2010)
http://www.ils.uec.ac.jp/~dima/PAPERS/2010logistie.pdf http://mizugadro.mydns.jp/PAPERS/2010logistie.pdf D.Kouznetsov. Continual generalisation of the Logistic sequence. Moscow State University Physics Bulletin, 3 (2010) No.2, стр.2330.
http://www.ams.org/journals/mcom/000000000/S002557182012025907/S002557182012025907.pdf
http://www.ils.uec.ac.jp/~dima/PAPERS/2012e1eMcom2590.pdf
http://mizugadro.mydns.jp/PAPERS/2012e1eMcom2590.pdf
H.Trappmann, D.Kouznetsov. Computation of the Two Regular SuperExponentials to base exp(1/e). Mathematics of Computation, 2012,
81, February 8. p.22072227.
http://www.ils.uec.ac.jp/~dima/PAPERS/2012or.pdf
http://mizugadro.mydns.jp/PAPERS/2012or.pdf
Dmitrii Kouznetsov. Superfunctions for optical amplifiers. Optical Review, July 2013, Volume 20, Issue 4, pp 321326.
http://www.scirp.org/journal/PaperInformation.aspx?PaperID=36560
http://mizugadro.mydns.jp/PAPERS/2013jmp.pdf
D.Kouznetsov. TORI axioms and the applications in physics. Journal of Modern Physics, 2013, v.4, p.11511156.
http://www.ingentaconnect.com/content/asp/asl/2013/00000019/00000003/art00071 http://mizugadro.mydns.jp/PAPERS/2012thaiSuper.pdf D.Kouznetsov. Recovery of Properties of a Material from Transfer Function of a Bulk Sample (Theory). Advanced Science Letters, Volume 19, Number 3, March 2013, pp. 10351038(4).
http://link.springer.com/article/10.1007/s1004301300586 D.Kouznetsov. Superfunctions for amplifiers. Optical Review, July 2013, Volume 20, Issue 4, pp 321326.
http://www.mhikari.com/ams/ams2013/ams1291322013/kouznetsovAMS1291322013.pdf http://mizugadro.mydns.jp/PAPERS/2013hikari.pdf D.Kouznetsov. Entire function with logarithmic asymptotic. Applied Mathematical Sciences, 2013, v.7, No.131, p.65276541.
http://www.pphmj.com/references/8246.htm http://mizugadro.mydns.jp/PAPERS/2014susin.pdf D.Kouznetsov. Super sin. Far East Jourmal of Mathematical Science, v.85, No.2, 2014, pages 219238.
Keywords
Abel function, Book, Doya function, Iteration, Keller function, Maple and tea, LambertW, Shoka function, Superfunction, SuperFactorial, SuSin, SuTra, SuZex, Tania function, Tetration, Trappmann function, Tetration, Zex function,