Gas turbine blade

The invention claimed is: 1. A gas turbine comprising an airfoil extending in radial direction from a blade root to a blade tip, defining a span ranging from 0% at the blade root to 100% at the blade tip, and extending in axial direction from a leading edge to a trailing edge, which limit a chord with an axial chord length defined by an axial length of a straight line connecting the leading edge and trailing edge of the airfoil depending on the span, wherein the axial chord length increases at least from 80% span to 100% span and the axial chord length provides a minimum at least in the range between 50%±10% span and 70%±10% span. 2. The gas turbine blade according to claim 1 , wherein the axial chord length increases at least from 70% to 100% span. 3. The gas turbine blade according to claim 1 , wherein the axial chord length increases from 50% span to 100% span and provides a minimum at 50% span. 4. The gas turbine blade according to claim 1 , wherein the leading edge and the tailing edge separate a suction and a pressure surface of the airfoil, both surfaces extending radially between the blade root and the blade tip and axially between the leading and trailing edge and being mutually opposed surfaces of the airfoil along a circumferential direction which is orthogonal to the axial and radial direction, and that the leading and trailing edge are bent within at least one span region. 5. The gas turbine blade according to claim 4 , wherein the leading and the trailing edge are bent in a circumferential direction towards the suction surface side of the airfoil. 6. The gas turbine blade according to claim 4 , wherein the at least one span region is between 50%±10% span and 100% span. 7. The gas turbine blade according to claim 4 , wherein bending of the leading and trailing edge depend on a curvature of a stacking line which is a line on the surface at the pressure side of the airfoil extending from 0% to 100% span at an axial position of 50%±5% of axial chord length, and said stacking line is bent in the span region between 50%±10% span and 100% span such that the stacking line encircles at 100% span at an angle α with a virtual plane oriented orthogonal to the radial direction, wherein the angle α is in a plane defined by the stacking line and the radial direction, for the angle applies: (12.5°±2.5°)≦α≦(25°±5°). 8. The gas turbine blade according to claim 7 , wherein the stacking line is straight between 0% span and 50%±10% span. 9. The gas turbine blade according to claim 7 , wherein stacking line provides a curvature within the span direction, and the curvature is defined by one single radius. 10. The gas turbine blade according to claim 1 , wherein the blade is an activity-cooled rotating turbine blade having cooling channels inside the airfoil. 11. A gas turbine blade according to claim 1 , wherein the blade provides an aspect ratio span/axial chord length at 5%±5% span ranging from 1.6 to 2.1. 12. The gas turbine blade according to claim 1 , wherein the blade is suitable for use as a rotor blade or a guide blade vane of a turbo-machinery.