Cauchy-Riemann equations: Difference between revisions

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In [[complex analysis]], the '''Cauchy-Riemann equations''' are one of the of the basic objects of the theory. The [[Homogeneous equation|homogeneous]] form of those equations const of a system of <math>\scriptstyle 2n</math> [[partial differential equation]]s, where <math>\scriptstyle n</math> is a [[positive integer]], expressing a necessary and sufficient condition between the [[Real part|real]] and [[imaginary part]] of a [[Complex number|complex valued]] function of <math>\scriptstyle 2n</math> [[variable]]s for the given function to be a [[Holomorphic function|holomorphic one]]. These equations are sometimes referred as '''Cauchy-Riemann conditions''', '''Cauchy-Riemann operators''' or '''Cauchy-Riemann system'''.
In [[complex analysis]], the '''Cauchy-Riemann equations''' are one of the of the basic objects of the theory. The [[Homogeneous equation|homogeneous]] form of those equations const of a system of <math>\scriptstyle 2n</math> [[partial differential equation]]s, where <math>\scriptstyle n</math> is a [[positive integer]], expressing a necessary and sufficient condition between the [[Real part|real]] and [[imaginary part]] of a [[Complex number|complex valued]] function of <math>\scriptstyle 2n</math> [[variable]]s for the given function to be a [[Holomorphic function|holomorphic one]]. These equations are sometimes referred as '''Cauchy-Riemann conditions''' or '''Cauchy-Riemann system''': the [[differential operator]] appearing on the left side of these equations is usually called the '''Cauchy-Riemann operator'''.


== Formal definition ==
== Formal definition ==

Revision as of 12:54, 9 January 2011

In complex analysis, the Cauchy-Riemann equations are one of the of the basic objects of the theory. The homogeneous form of those equations const of a system of partial differential equations, where is a positive integer, expressing a necessary and sufficient condition between the real and imaginary part of a complex valued function of variables for the given function to be a holomorphic one. These equations are sometimes referred as Cauchy-Riemann conditions or Cauchy-Riemann system: the differential operator appearing on the left side of these equations is usually called the Cauchy-Riemann operator.

Formal definition

In the following text, it is assumed that ℂn≡ℝ2n, identifying the points of the euclidean spaces on the complex and real fields as follows

The subscript is omitted when n=1.

The Cauchy-Riemann equations in ℂ (n=1)

Let f(x, y) = u(x, y) + iv(x, y) a complex valued differentiable function. Then f satisfies the homogeneous Cauchy-Riemann equations if and only if

Using Wirtinger derivatives these equation can be written in the following more compact form:

The Cauchy-Riemann equations in ℂn (n>1)

Let f(x1, y1,...,xn, yn) = u(x1, y1,...,xn, yn) + iv(x1, y1,...,xn, yn) a complex valued differentiable function. Then f satisfies the homogeneous Cauchy-Riemann equations if and only if

Again, using Wirtinger derivatives this system of equation can be written in the following more compact form:

Notations for the case n>1

In the French, Italian and Russian literature on the subject, the multi-dimensional Cauchy-Riemann system is often identified with the following notation:

The Anglo-Saxon literature (English and North American) uses the same symbol for the complex differential form related to the same operator.

References

  • Hörmander, Lars (1990), An Introduction to Complex Analysis in Several Variables, North–Holland Mathematical Library, vol. 7 (3rd (Revised) ed.), Amsterdam–London–New York–Tokyo: North-Holland, Zbl 0685.32001, ISBN 0-444-88446-7 [e].