Method for producing a component, and an optical irradiation device

The invention claimed is: 1. A production method for a component comprising: applying a layer of material; melting the layer of material by irradiation with laser radiation from a first laser; allowing the melted material to solidify to form a first layer of the component; the first layer being divided into an inner region and an edge region with an edge region surface having a first roughness value, and before an addition of any supplemental material or successive layer, at least the edge region surface of the edge region of the first layer is remelted with an ultrashort-pulse laser after the irradiation by the laser radiation from the first laser to achieve a roughness value lower than the first roughness value upon resolidification of the edge region surface; and iteratively repeating the above steps to form successive layers of the component. 2. The production method as claimed in claim 1 , wherein an entirety of the edge region of the first layer is irradiated. 3. The production method as claimed in claim 1 , wherein the ultrashort-pulse laser emits pulsed laser light with pulse durations in the range of picoseconds or femtoseconds. 4. The production method as claimed in claim 1 , wherein the ultrashort-pulse laser is arranged at an angle (α) of 30°-45° with respect to the edge region surface. 5. The production method as claimed in claim 1 , wherein the ultrashort-pulse laser as well as the layers are arranged in a process chamber, and the ultrashort-pulse laser is arranged movably through 360° in the process chamber. 6. An optical irradiation device for producing a component by successive melting and solidification of individual layers of material, each layer being dividable into an inner region and an edge region with an edge region surface, the optical irradiation device comprising: a first laser configured for irradiating and melting respective individual layers of material which then solidify to form a respective layer of the component, and a second laser, different from the first laser, the second laser being an ultrashort-pulse laser, configured to irradiate at least the edge region surface of a respective layer after the irradiation of the respective layer by the first laser, wherein the ultrashort-pulse laser as well as the individual layers are arranged in a process chamber. 7. The optical irradiation device as claimed in claim 6 , wherein the ultrashort-pulse laser is arranged movably through 360° in the process chamber. 8. The optical irradiation device as claimed in claim 6 , wherein the ultrashort-pulse laser is arranged at an angle (α) of 30°-45° with respect to the edge region surface. 9. The optical irradiation device as claimed claim 6 , wherein the optical irradiation device is adapted to produce a component by: successive solidification of individual layers of material by irradiation with laser radiation from the first laser, each layer being divided into an inner region and an edge region with an edge region surface having a first roughness value, wherein for each layer, at least the edge region surface of the edge region of the respective layer is remelted with the ultrashort-pulse laser after the irradiation by the laser radiation from the first laser and before addition of any successive layer to achieve a roughness value lower than the first roughness value upon resolidification of the edge region surface. 10. A production method for a component comprising: applying a layer of material; melting the layer of material with a laser beam and allowing the melted material to solidify to form a layer of the component having a surface exhibiting a first roughness characteristic; and remelting an edge region of the surface with an ultrashort-pulse laser beam before applying any supplemental material or successive layer and allowing the remelted edge region surface to resolidify to achieve a roughness characteristic different from the first roughness characteristic.