Half-integer

In mathematics, a half-integer is a number of the form

n + {1\over 2}

,

where $n$ is an integer. For example,

4½, 7/2, −13/2, 8.5

are all half-integers.

Half-integers occur frequently enough in mathematical contexts that a special term for them is convenient. Note that a half of an integer is not always a half-integer: half of an even integer is an integer but not a half-integer. The half-integers are precisely those numbers that are half of an odd integer, and for this reason are also called the half-odd-integers. Half-integers are a special case of the dyadic rationals, numbers that can be formed by dividing an integer by a power of two.^[1]

Notation and algebraic structure

The set of all half-integers is often denoted

\mathbb Z + {1\over 2}.

The integers and half-integers together form a group under the addition operation, which may be denoted^[2]

\frac{1}{2} \mathbb Z

.

However, these numbers do not form a ring because the product of two half-integers is generally not itself a half-integer.^[3]

Uses

Sphere packing

The densest lattice packing of unit spheres in four dimensions, called the D₄ lattice, places a sphere at every point whose coordinates are either all integers or all half-integers. This packing is closely related to the Hurwitz integers, which are quaternions whose real coefficients are either all integers or all half-integers.^[4]

Physics

In physics, the Pauli exclusion principle results from definition of fermions as particles which have spins that are half-integers.^[5]

The energy levels of the quantum harmonic oscillator occur at half-integers and thus its lowest energy is not zero.^[6]

Sphere volume

Although the factorial function is defined only for integer arguments, it can be extended to fractional arguments using the gamma function. The gamma function for half-integers is an important part of the formula for the volume of an n-dimensional ball of radius R,^[7]

V_n(R) = \frac{\pi^{n/2}}{\Gamma(\frac{n}{2} + 1)}R^n.

The values of the gamma function on half-integers are integer multiples of the square root of pi:

\Gamma\left(\frac{1}{2}+n\right) = \frac{(2n-1)!!}{2^n}\, \sqrt{\pi} = {(2n)! \over 4^n n!} \sqrt{\pi}

where n!! denotes the double factorial.

References

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↑ Equation 5.19.4, NIST Digital Library of Mathematical Functions. http://dlmf.nist.gov/, Release 1.0.6 of 2013-05-06.

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[7] Equation 5.19.4, NIST Digital Library of Mathematical Functions. http://dlmf.nist.gov/, Release 1.0.6 of 2013-05-06.

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Half-integer

Contents

Notation and algebraic structure

Uses

Sphere packing

Physics

Sphere volume

References

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