Abstract
AbstractA well-known conjecture of Gilbreath, and independently Proth from the 1800s, states that if $$a_{0,n} = p_n$$
a
0
,
n
=
p
n
denotes the nth prime number and $$a_{i,n} = |a_{i-1,n}-a_{i-1,n+1}|$$
a
i
,
n
=
|
a
i
-
1
,
n
-
a
i
-
1
,
n
+
1
|
for $$i, n \ge 1$$
i
,
n
≥
1
, then $$a_{i,1} = 1$$
a
i
,
1
=
1
for all $$i \ge 1$$
i
≥
1
. It has been postulated repeatedly that the property of having $$a_{i,1} = 1$$
a
i
,
1
=
1
for i large enough should hold for any choice of initial $$(a_{0,n})_{n \ge 1}$$
(
a
0
,
n
)
n
≥
1
provided that the gaps $$a_{0,n+1}-a_{0,n}$$
a
0
,
n
+
1
-
a
0
,
n
are not too large and are sufficiently random. We prove (a precise form of) this postulate.
Publisher
Springer Science and Business Media LLC
Reference8 articles.
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