In mathematics, in the field of complex analysis, a Nevanlinna function is a complex function which is an analytic function on the open upper half-plane and has a non-negative imaginary part. A Nevanlinna function maps the upper half-plane to itself or a real constant, but is not necessarily injective or surjective. Functions with this property are sometimes also known as Herglotz, Pick or R functions.
Every Nevanlinna function admits a representation
where is a real constant, is a non-negative constant, is the upper half-plane, and is a Borel measure on satisfying the growth condition
Conversely, every function of this form turns out to be a Nevanlinna function. The constants in this representation are related to the function via
and the Borel measure can be recovered from by employing the Stieltjes inversion formula (related to the inversion formula for the Stieltjes transformation):
A very similar representation of functions is also called the Poisson representation.
Some elementary examples of Nevanlinna functions follow (with appropriately chosen branch cuts in the first three). ( can be replaced by for any real number .)
Nevanlinna functions appear in the study of Operator monotone functions.