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Eric Rowland (talk | contribs) →p-adic logarithm function: subscript p |
Adumbrativus (talk | contribs) Add note on the lack of an analogue for the number e; separate Notes and References footnotes |
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:<math>|z|_p<p^{-1/(p-1)}.</math>
This is because ''p''-adic series converge if and only if the summands tend to zero, and since the ''n''! in the denominator of each summand tends to make them very large ''p''-adically, rather a small value of ''z'' is needed in the numerator.
Although the ''p''-adic exponential is sometimes denoted ''e''<sup>''x''</sup>, the [[e (mathematical constant)|number ''e'']] itself has no ''p''-adic analogue. This is because the power series exp<sub>''p''</sub>(''x'') does not converge at {{nowrap|''x'' {{=}} 1}}. It is possible to choose a number ''e'' to be a ''p''-th root of exp<sub>''p''</sub>(''p'') for {{nowrap|''p'' ≠ 2}},{{efn|or a 4th root of exp<sub>2</sub>(4), for {{nowrap|''p'' {{=}} 2}}}} but there are multiple such roots and there is no canonical choice among them.<ref>{{harvnb|Robert|2000|p=252}}</ref>
==''p''-adic logarithm function==
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The power series
:<math>\log_p(1+x)=\sum_{n=1}^\infty \frac{(-1)^{n+1}x^n}{n},</math>
converges for ''x'' in '''C'''<sub>''p''</sub> satisfying |''x''|<sub>''p''</sub> < 1 and so defines the '''''p''-adic logarithm function''' log<sub>''p''</sub>(''z'') for |''z'' − 1|<sub>''p''</sub> < 1 satisfying the usual property log<sub>''p''</sub>(''zw'') = log<sub>''p''</sub>''z'' + log<sub>''p''</sub>''w''. The function log<sub>''p''</sub> can be extended to all of {{SubSup|'''C'''|''p''|×}} (the set of nonzero elements of '''C'''<sub>''p''</sub>) by imposing that it continues to satisfy this last property and setting log<sub>''p''</sub>(''p'') = 0. Specifically, every element ''w'' of {{SubSup|'''C'''|''p''|×}} can be written as ''w'' = ''p<sup>r</sup>''·ζ·''z'' with ''r'' a rational number, ζ a root of unity, and |''z'' − 1|<sub>''p''</sub> < 1,<ref>{{harvnb|Cohen|2007|loc=Proposition 4.4.44}}</ref> in which case log<sub>''p''</sub>(''w'') = log<sub>''p''</sub>(''z'').
==Properties==
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==Notes==
{{Notelist}}
==References==▼
{{reflist}}
▲==References==
* Chapter 12 of {{cite book | last=Cassels | first=J. W. S. | authorlink=J. W. S. Cassels | title=Local fields | series=[[London Mathematical Society|London Mathematical Society Student Texts]] | publisher=[[Cambridge University Press]] | year=1986 | isbn=0-521-31525-5 }}
*{{Citation
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| doi=10.1007/978-0-387-49923-9
}}
*{{Citation |last=Robert |first=Alain M. |year=2000 |title=A Course in ''p''-adic Analysis |publisher=Springer |isbn=0-387-98669-3}}
==External links==
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