Hilbert number

In number theory, a branch of mathematics, a Hilbert number is a positive integer of the form $4 n + 1$ (Flannery & Flannery (2000, p. 35)). The Hilbert numbers were named after David Hilbert. The sequence of Hilbert numbers begins 1, 5, 9, 13, 17, ... (sequence A016813 in the OEIS))

Properties[edit]

The Hilbert number sequence is the arithmetic sequence with $a_{1}=1,d=4$ , meaning the Hilbert numbers follow the recurrence relation $a_{n}=a_{n-1}+4$ .
The sum of a Hilbert number amount of Hilbert numbers (1 number, 5 numbers, 9 numbers, etc.) is also a Hilbert number.

Hilbert primes[edit]

A Hilbert prime is a Hilbert number that is not divisible by a smaller Hilbert number (other than 1). The sequence of Hilbert primes begins

5, 9, 13, 17, 21, 29, 33, 37, 41, 49, ... (sequence A057948 in the OEIS).

A Hilbert prime is not necessarily a prime number; for example, 21 is a composite number since $21 = 3 \cdot 7$ . However, 21 is a Hilbert prime since neither 3 nor 7 (the only factors of 21 other than 1 and itself) are Hilbert numbers. It follows from multiplication modulo 4 that a Hilbert prime is either a prime number of the form $4 n + 1$ (called a Pythagorean prime), or a semiprime of the form $(4 a + 3) \cdot (4 b + 3)$ .

References[edit]

Flannery, S.; Flannery, D. (2000), In Code: A Mathematical Journey, Profile Books

Hilbert number

Properties[edit]

Hilbert primes[edit]

References[edit]

External links[edit]

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