Laser device for material processing

The invention claimed is: 1. Laser device for material processing, comprising a source of a pulsed laser beam; a detector comprising a plurality of detector elements configured to: photodetect a plurality of partial beams generated from the laser beam by radiation outcoupling; and provide corresponding detection signals, a first detector element providing a first detection signal based on single-photon absorption and a second detector element providing a second detection signal based on two-photon absorption; and a processor-aided computer linked to the detector system for evaluation of the detection signals, the computer configured to: calculate a quotient S Zpd /S Epd of the detection signals of the detector elements, where S Zpd describes a temporally averaged value of the second detection signal of the second detector element, and S Epd describes a temporally averaged value of the first detection signal of the first detector element; and in response to a variation in the quotient S Zpd /S Epd , trace back to a variation in a spot size of the laser beam on a detection surface of the first detection element. 2. Laser device according to claim 1 , wherein the computer is configured to effect at least one predetermined reaction in response to a variation in the quotient S Zpd /S Epd . 3. Laser device according to claim 2 , wherein the at least one predetermined reaction comprises an operating shutdown of the source or the output of a message. 4. Laser device according to claim 2 , wherein the at least one predetermined reaction comprises controlling a component of the laser device influencing the pulse duration of the laser beam. 5. Laser device according to claim 2 , wherein the at least one predetermined reaction comprises controlling a component of the laser device influencing the wave front of the laser beam. 6. Laser device according to claim 1 , further comprising: focusing optics for focusing the laser beam onto an object to be processed; and a focus control device for the spatial controlling of a focus position of the laser beam, the focus control device comprising at least one transverse control element arranged in the beam path of the laser beam between the source and focusing optics for the spatial-transverse control of the focus position, wherein an outcoupling point, at which radiation is coupled out from the laser beam for at least one of the partial beams, is arranged in the beam path of the laser beam between the source and the at least one transverse control element. 7. Laser device according to claim 6 , further comprising: beam expansion optics arranged in the beam path of the laser beam between the source and the at least one transverse control element, wherein the outcoupling point is arranged in the beam path of the laser beam between the source and the beam expansion optics. 8. Laser device according to claim 1 , further comprising: a focusing lens for focusing one of the partial beams onto a detector element of the detector system that acts according to the principle of two-photon absorption.