In
functional analysis, a
right approximate identity in a
Banach algebra,
A, is a
net (or a
sequence)
such that for every element,
a, of
A, the net (or sequence)
has limit
a.
Similarly, a
left approximate identity is a net
such that for every element,
a, of
A, the net (or sequence)
has limit
a.
An
approximate identity is a right approximate identity which is also a left approximate identity.
For
C*-algebras, a right (or left) approximate identity is the same as an approximate identity. Every C*-algebra has an approximate identity of
positive elements of norm ≤ 1; indeed, the net of all positive elements of norm ≤ 1; in
A with its natural order always suffices. This is called the
canonical approximate identity of a C*-algebra. Approximate identities of C*-algebras are not unique. For example, for compact operators acting on a Hilbert space, the net consisting of finite rank projections would be another approximate identity.
An approximate identity in a
convolution algebra plays the same role as a sequence of function approximations to the
Dirac delta function (which is the identity element for convolution). For example the
Fejér kernels of
Fourier series theory give rise to an approximate identity.
See also
Category:Banach algebrasde:Approximation der Eins 
