Component with structured connection surface, and method for operating a component

The invention claimed is: 1 . A component comprising a main body and a contact structure, wherein the main body comprises an active zone which, at least in regions, is configured for generating electromagnetic radiation during operation of the component, the contact structure comprises a plurality of individually controllable segments, the component comprises a connection surface and a side surface, wherein the side surface extends transversely to the connection surface and is formed as a radiation passage surface of the component, the connection surface is formed in a structured manner, wherein the connection surface is defined by internal common interfaces between the main body and the contact structure, and wherein the segments each comprise a local common interface with the main body and are configured for injecting current into the main body in a pixelated manner, the component has a passivation structure which is configured for electrically insulating the segments from one another, the structured connection surface having surfaces of the passivation structure and surfaces of the individually controllable segments, the passivation structure comprises at least one sub-layer, the sub-layer is located between two adjacent segments of the contact structure in a vertical direction as well as in a lateral direction, and the contact structure has at least two adjacent L-shaped segments, the adjacent segments being arranged one above the other in regions as seen in plan view of the main body and thus having overlaps as seen in plan view. 2 . The component according to claim 1 , wherein the segments are spatially spaced apart from one another in lateral directions by intermediate regions and are thus pixelated in two lateral directions, the intermediate regions being filled with a gaseous medium and the segments being electrically insulated from one another on account of the intermediate regions. 3 . The component according to claim 1 , wherein the main body has a transparent electrically conductive contact layer which is directly adjacent to the segments and is electrically conductively connected thereto, wherein the transparent electrically conductive contact layer is continuous, or the transparent electrically conductive contact layer has a plurality of partial contact layers arranged next to one another, each of which is uniquely assigned to one of the segments. 4 . The component according to claim 1 comprising different adjustable operating modes, the different operating modes being adjustable by electrically activating different segments of the contact structure, wherein the component simultaneously comprises at least two, three or four of the following modes of operation: component as a ridge laser with a ridge width less than 50 μm; component as a ridge laser with a ridge width greater than 50 μm; component as a tapered laser; component as a laser array; component as a flared waveguide laser; component as a master oscillator power amplifier structure; and component as a superluminescent diode. 5 . The component according to claim 1 , wherein the segments of the contact structure have contact surfaces which face the main body, are directly adjacent thereto and are defined by the internal common interfaces, wherein the segments are divided into at least two different groups with respect to the contact surfaces, and the segments of different groups have different geometric shapes or different geometric sizes. 6 . The component according to claim 1 , wherein the segments of the contact structure have contact surfaces which face the main body, are directly adjacent thereto and are defined by the inner common interfaces, the segments being divided into at least two different groups with respect to the contact surfaces, and the segments of different groups having the same geometrical shape but different geometrical sizes. 7 . The component according to claim 1 , wherein the segments of the contact structure have contact surfaces which face the main body, are directly adjacent thereto and are defined by the internal common interfaces, the contact surfaces of the segments being uniformly distributed on the main body, having the same geometric shape and differing from one another by at most 15% in terms of their geometric sizes. 8 . A component device comprising a component according to claim 1 and a carrier, wherein the component is arranged on the carrier and is electrically conductively connected thereto at a contact layer of the carrier facing the component, and the contact layer has a pre-structured geometric shape, does not cover all segments in plan view, is electrically conductively connected only to predefined segments due to the pre-structured geometric shape and thus defines a predefined operating mode of the component. 9 . A component device comprising a component according to claim 1 , wherein the component device has, a carrier for mechanical stabilization and/or for electrical contacting of the component, and/or a converter for converting electromagnetic radiation, and/or an optical element for deflecting or focusing electromagnetic radiation. 10 . A component device having a plurality of components according to claim 1 arranged side by side, wherein the components each have different adjustable operating modes, and wherein the different operating modes of the individual component are adjustable by electrically activating different segments of the contact structure of the associated component. 11 . A component comprising a main body and a contact structure, wherein the main body comprises an active zone which, at least in regions, is configured for generating electromagnetic radiation during operation of the component, the contact structure comprises a plurality of individually controllable segments, the component comprises a connection surface and a side surface, wherein the side surface extends transversely to the connection surface and is formed as a radiation passage surface of the component, the connection surface is formed in a structured manner, wherein the connection surface is defined by internal common interfaces between the main body and the contact structure, and wherein the segments each comprise a local common interface with the main body and are configured for injecting current into the main body in a pixelated manner, the segments of the contact structure have contact surfaces, face and are immediately adjacent to the main body and are defined by the internal common interfaces, wherein one of the segments is formed as the main segment with respect to the contact surfaces, which has the largest contact surface formed as the main contact surface compared to the other segments, the smaller contact surfaces of the other segments are formed as switchable secondary contact surfaces, and the contact surface formed as main contact surface has a rectangular shape and the contact surfaces formed as connectable secondary contact surfaces are formed curved at least in places. 12 . A component device comprising a plurality of components according to claim 11 , wherein, the components are formed to be switchable between at least two different operating modes during operation of the component device, and the contact surfaces of different components, which are formed as switchable secondary contact surfaces, are curved differently or are activatable differently during operation of the component device. 13 . A method of operating the component of claim 1 wherein the component has different adjustable operating modes and the method comprises: operating the different operating modes