n
=
(
6
m
+
1
)
⋅
(
12
m
+
1
)
{\displaystyle n=(6m+1)\cdot (12m+1)}
Wenn
m
>
0
{\displaystyle m>0}
φ
(
n
)
/
2
{\displaystyle \varphi (n)/2}
φ
(
n
)
/
4
{\displaystyle \varphi (n)/4}
n
{\displaystyle n}
n
=
(
6
m
+
1
)
⋅
(
12
m
+
1
)
=
72
m
2
+
18
m
+
1
{\displaystyle n=(6m+1)\cdot (12m+1)=72m^{2}+18m+1}
Faktorisierung:
n
=
∏
i
=
1
k
p
i
α
i
,
k
=
2
,
α
i
=
1
∀
1
≤
i
≤
2
{\displaystyle n=\prod _{i=1}^{k}p_{i}^{\alpha _{i}},\quad k=2,\quad \alpha _{i}=1\quad \forall \ 1\leq i\leq 2}
Primfaktoren:
p
1
=
6
m
+
1
,
p
2
=
12
m
+
1
{\displaystyle p_{1}=6m+1,\quad p_{2}=12m+1}
Anzahl der teilerfremden Zahlen
≤
n
{\displaystyle \leq n}
φ
(
n
)
=
∏
i
=
1
k
p
i
α
i
−
1
(
p
i
−
1
)
=
∏
i
=
1
2
(
p
i
−
1
)
=
(
6
m
)
⋅
(
12
m
)
=
72
m
2
{\displaystyle \varphi (n)=\prod _{i=1}^{k}p_{i}^{\alpha _{i}-1}(p_{i}-1)=\prod _{i=1}^{2}(p_{i}-1)=(6m)\cdot (12m)=72m^{2}}
(Eulersche φ-Funktion )
Anzahl der Basen für Fermatsche Pseudoprimzahlen :
∏
i
=
1
k
gcd
(
n
−
1
,
p
i
−
1
)
{\displaystyle \prod _{i=1}^{k}\gcd(n-1,p_{i}-1)}
[1]
∏
i
=
1
k
gcd
(
n
−
1
,
p
i
−
1
)
=
gcd
(
72
m
2
+
18
m
,
6
m
)
⋅
gcd
(
72
m
2
+
18
m
,
12
m
)
=
(
6
m
)
⋅
(
6
m
)
=
36
m
2
=
φ
(
n
)
/
2
{\displaystyle {\begin{aligned}\prod _{i=1}^{k}\gcd(n-1,p_{i}-1)&=\gcd(72m^{2}+18m,6m)\cdot \gcd(72m^{2}+18m,12m)\\&=(6m)\cdot (6m)=36m^{2}=\varphi (n)/2\end{aligned}}}
Anzahl der Basen für starke Pseudoprimzahlen :
(
1
+
2
k
ν
−
1
2
k
−
1
)
∏
i
=
1
k
gcd
(
d
,
p
i
′
)
{\displaystyle \left(1+{\frac {2^{k\nu }-1}{2^{k}-1}}\right)\prod _{i=1}^{k}\gcd \left(d,\ p_{i}^{'}\right)}
[2]
Mit
d
=
36
m
2
+
9
m
{\displaystyle d=36m^{2}+9m}
p
1
−
1
=
6
m
,
p
2
−
1
=
12
m
⇒
p
1
′
=
p
2
′
=
3
m
{\displaystyle p_{1}-1=6m,\ p_{2}-1=12m\quad \Rightarrow \quad p_{1}^{'}=p_{2}^{'}=3m\ }
ν
=
ν
2
(
p
1
)
=
1
{\displaystyle \nu =\nu _{2}(p_{1})=1\ }
(
1
+
2
k
ν
−
1
2
k
−
1
)
∏
i
=
1
k
gcd
(
d
,
p
i
′
)
=
2
⋅
∏
i
=
1
2
gcd
(
36
m
2
+
9
m
,
3
m
)
=
18
m
2
=
φ
(
n
)
/
4
{\displaystyle \left(1+{\frac {2^{k\nu }-1}{2^{k}-1}}\right)\prod _{i=1}^{k}\gcd \left(d,\ p_{i}^{'}\right)=2\cdot \prod _{i=1}^{2}\gcd \left(36m^{2}+9m,3m\right)=18m^{2}=\varphi (n)/4}
n
=
(
12
m
+
1
)
⋅
(
24
m
+
1
)
{\displaystyle n=(12m+1)\cdot (24m+1)}
Beispiel:
2701
=
37
⋅
73
{\displaystyle 2701=37\cdot 73}
↑ Lucas Pseudoprimes
↑ On the number of false witnesses for a composite number, S. 270 (5.4)
