On Perfect Totient Numbers

Journal of Integer Sequences, Vol. 6 (2003), Article 03.4.5

On Perfect Totient Numbers

Douglas E. Iannucci
University of the Virgin Islands
St Thomas, VI 00802
USA
Deng Moujie
Science and Engineering College
Hainan University
Haikou City 570228
P. R. China
Graeme L. Cohen
University of Technology, Sydney
PO Box 123, Broadway
NSW 2007
Australia

Abstract:

Let n>2 be a positive integer and let $\phi$ denote Euler's totient function. Define $\phi^1(n)=\phi(n)$ and $\phi^k(n)=\phi(\phi^{k-1}(n))$ for all integers $k\ge2$ . Define the arithmetic function S by $S(n)=\phi(n)+\phi^2(n)+\cdots+\phi^c(n)+1$ , where $\phi^c(n)=2$ . We say n is a perfect totient number if S(n)=n. We give a list of known perfect totient numbers, and we give sufficient conditions for the existence of further perfect totient numbers.

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Received July 23 2003; revised version received October 2 2003. Published in Journal of Integer Sequences December 18 2003. Minor typo corrected, June 8 2009.

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On Perfect Totient Numbers

Douglas E. Iannucci University of the Virgin Islands St Thomas, VI 00802 USA Deng Moujie Science and Engineering College Hainan University Haikou City 570228 P. R. China Graeme L. Cohen University of Technology, Sydney PO Box 123, Broadway NSW 2007 Australia

Douglas E. Iannucci
University of the Virgin Islands
St Thomas, VI 00802
USA
Deng Moujie
Science and Engineering College
Hainan University
Haikou City 570228
P. R. China
Graeme L. Cohen
University of Technology, Sydney
PO Box 123, Broadway
NSW 2007
Australia