DF.ID.1: Dirichlet series of first and second order divisor function:
Euler product representation of Dirichlet series of divisor function:
(1.a)
(1.b)
(2.a)
(2.b)
according to
(3.a)
from (1.b) and (2.b):
(3.b)
The derivative of geometric series (GS.ID.1):
(4)
(5.a)
(5.b)
from ( 3.a) and (4) , the Dirichlet series of first order divisor function:
(6)
from (3.b) and (5.b) , the Dirichlet series of second order divisor function:
(7)
DF.ID.2: Dirichlet series of first order divisor function: of squared number
proof
(8)
(8.b)
(8.c)
given that :
(9)
The derivative of previous series:
(10)
(11)
from (8.c)(10) and (11),
(12)
(13)
DF.ID.3: Dirichlet series of sum of higher order divisor function:
Proof
(1)
(2)
(3)
(4)
(5)
(6)
(7)
replacing (7) in (6) gives:
(8)
(9)
(10)
(11)
(12)
(13)
