Apparatus for spectrometrically capturing light with a photodiode which is monolithically integrated in the layer structure of a wavelength-selective filter

The invention claimed is: 1. Apparatus for spectrometrically capturing light, comprising at least: a wavelength-adjustable filter for converting spectral information into location information and an organic photodiode serving as a detector for converting the location information into electrical signals that can be retransmitted, wherein the filter and the organic photodiode form a single-piece monolith, wherein the organic photodiode is combined with the filter in a connection arrangement or the organic photodiode is integrated into the filter, wherein the filter comprises at least a spectrally resolving element in the form of at least one layer-like photonic crystal constituting the monolith, in which two layers having variable thickness D are formed along a direction perpendicular to incident light, wherein a resonance layer is arranged between the two layers, wherein the organic photodiode contacting the filter comprises at least the following detector layers: a photo-active layer, a first electrode of the photoactive layer and a second electrode of the photoactive layer, wherein the photoactive layer is located between the first and second electrodes and one of the electrodes is in contact with the photonic crystal, wherein: the photoactive layer, the first electrode of the photoactive layer and the second electrode of the photoactive layer, are located within the resonance layer of the photonic crystal of the filter. 2. The apparatus according to claim 1 , wherein: the filter and the photodiode are arranged downstream of an entry surface of the filter and contact each other in such a way that they form the monolithic unit, and at least one layer of the spectrally resolving element has a wavelength-matched adjustable thickness D along a direction perpendicular to the incident light. 3. The apparatus according to claim 2 , wherein: one of the first and second electrodes of the photoactive layer is connected to a layer-like substrate. 4. The apparatus according to claim 1 , wherein: the photoactive layer of the organic photodiode, by generation of light radiation charge carriers is located in a long-wavelength sensitive range and/or by generation of charge carriers is located in a short-wavelength sensitive range. 5. The apparatus according to claim 1 , wherein: the filter comprises a linear graduated filter with Bragg reflectors. 6. The apparatus according to claim 1 , wherein: the filter comprises a wavelength-dependent and wavelength-adjustable micro-resonator, wherein the micro-resonator comprises a dielectric mirror arrangement, comprising at least: a first mirror layer arrangement having alternating material layers of high refractive index and low refractive index, a second mirror layer arrangement having alternating material layers of high refractive index and low refractive index, and a resonance layer located between the first and the second mirror layer arrangements. 7. The apparatus according to claim 6 , wherein; a transparent layer is applied on one of the layer arrangements as a substrate for mechanically stabilizing the filter. 8. The apparatus according to claim 6 , wherein: the wavelength-adjustable micro-resonator is wedge-shaped. 9. The apparatus according to claim 1 , wherein: the filter comprises a wavelength-dependent and wavelength-adjustable micro-resonator, wherein the micro-resonator comprises at least: a first layer stack having a first specified refractive index, a second layer stack having a second specified refractive index, wherein the first specified refractive index and the second specified refractive index differ from each other, and a resonance layer arranged between the first and the second layer stacks, wherein at least one of the first or the second layer stacks or the resonance layer has a variable constantly increasing thickness D along the direction perpendicular to the incident light. 10. A spectrometric apparatus for spectrometrically capturing light at least comprising a light source, a filter for converting spectral information into location information having an entry surface, on which light components from the light source are incident, a detector in the form of an organic photodiode for converting the location information into electrical signals that can be retransmitted, an evaluation unit, which is connected to the photo diode via electrical signal-carrying connecting conductors, and a display unit, wherein the filter and the organic photodiode contact each other in such a way that they form a monolithic unit, wherein the filter comprises at least a spectrally resolving element in the form of at least one photonic crystal, in which at least one layer has a variable thickness D for adjusting a specified wavelength range along a direction perpendicular to the incident light, wherein the photodiode contacting the filter comprises at least the following detector layers: a photoactive layer for generating charge carriers, a first electrode of the photoactive layer and a second electrode of the photoactive layer, wherein the photoactive layer is located between the first and second electrodes and one of the two electrodes is in contact with the photonic crystal and the detector layers are located within a resonance layer of the photonic crystal of the filter. 11. The apparatus according to claim 10 , wherein: a second of the two electrodes of the photoactive layer is connected to a layer-like substrate. 12. The apparatus according to claim 10 , wherein: at least one of the electrodes of the organic photodiode is structured. 13. The apparatus according to claim 10 , wherein: connection conductors are situated between the photodiode and the evaluation unit. 14. The apparatus according to claim 13 , wherein: after its passage through the filter, there is a transmitted component of the light from the light source in the transparent region of the apparatus, wherein the transmitted component of the light generates charge carriers in a sensitive region of the photoactive layer, and wherein the electrical signal obtained is passed via the connecting conductors to the evaluation unit or evaluation.