Optical voltage source

What is claimed is: 1. An optical voltage source and a decoupling device comprising: a plurality of N series-connected semiconductor diodes, each of the plurality of N series-connected semiconductor diodes having a p-n junction, the semiconductor diodes being monolithically integrated; the optical voltage source comprising a first stack formed by the plurality of N series-connected semiconductor diodes, the first stack having an upper side and an underside, wherein a number of N semiconductor diodes of the first stack is greater than or equal to two; and the decoupling device comprising a second stack with a further semiconductor diode having a p-i-n junction, the second stack having an upper side and an underside, the further semiconductor diode being anti-serially connected with the semiconductor diodes of the first stack via a resistor such that a cathode of the further semiconductor diode is electrically conductively connected with a cathode of an uppermost diode of the first stack, and comprising a capacitor electrically conductively connected such that the decoupling device is configured to pick up a data signal, wherein the underside of the further semiconductor diode is materially connected with the upper side of the first stack, and wherein the second stack with the further semiconductor diode forms a total stack together with the first stack. 2. The optical voltage source and decoupling device according to claim 1 , wherein, in a projection perpendicular to the upper side of the first stack, the further semiconductor diode covers at most 50% or at most 30% or at most 10% of the upper side of the first stack. 3. The optical voltage source and decoupling device according to claim 1 , wherein a capacitance of the further semiconductor diode does not exceed 10 pF. 4. The optical voltage source and decoupling device according to claim 1 , wherein the semiconductor diodes and the further semiconductor diode are monolithically integrated. 5. The optical voltage source and decoupling device according to claim 1 , wherein a first contact is arranged on the upper side of the first stack at a distance to the further semiconductor diode. 6. The optical voltage source and decoupling device according to claim 5 , wherein the first contact is electrically conductively connected with the cathode of the further semiconductor diode and with the cathode of the semiconductor diode, which adjoins the upper side of the first stack. 7. The optical voltage source and decoupling device according to claim 1 , wherein a second contact is arranged on the upper side of the further semiconductor diode. 8. The optical voltage source and decoupling device according to claim 1 , wherein a third contact surface is arranged on the underside of the first stack, or wherein the underside of the first stack is cohesively connected with an upper side of a carrier substrate and the third contact is arranged on an underside of the carrier substrate. 9. The optical voltage source and decoupling device according to claim 1 , wherein the total stack comprises a carrier substrate, and wherein the underside of the first stack is materially connected with an upper side of the carrier substrate or with a conductive intermediate layer which completely overlaps the upper side of the carrier substrate. 10. The optical voltage source and decoupling device according to claim 9 , wherein, in a projection perpendicular to the upper side of the first stack, the carrier substrate forms a peripheral edge around the first stack. 11. The optical voltage source and decoupling device according to claim 10 , wherein a third contact is arranged on the peripheral edge of the carrier substrate. 12. The optical voltage source and decoupling device according to claim 8 , wherein the third contact is electrically conductively connected with an anode of a lowermost semiconductor diode, which adjoins the underside of the first stack. 13. The optical voltage source and decoupling device according to claim 1 , wherein the semiconductor diodes of the first stack and/or the further semiconductor diode comprise a III-V semiconductor material or consist of a III-V semiconductor material. 14. The optical voltage source and decoupling device according to claim 13 , wherein the III-V semiconductor material is GaAs. 15. The optical voltage source and decoupling device according to claim 1 , wherein a tunnel diode is formed between in each case two successive semiconductor diodes of the first sub-stack. 16. The optical voltage source and decoupling device according to claim 1 , wherein at least two semiconductor diodes of a first stack have an identical sequence of semiconductor layers, and wherein the respective mutually corresponding layers of the at least two semiconductor diodes have an identical stoichiometry. 17. The optical voltage source and decoupling device according to claim 1 , wherein the further semiconductor diode has a sequence of stacked semiconductor layers and the sequence is identical or not identical to the sequence of the semiconductor layers of one of the semiconductor diodes of the first stack. 18. The optical voltage source and decoupling device according to claim 1 , wherein the further semiconductor diode has a cutoff frequency of 250 kHz or above. 19. The optical voltage source and decoupling device according to claim 1 , further comprising: a first contact arranged on the upper side of the first stack, the first contact being electrically conductively connected to a cathode of an uppermost semiconductor diode of the first stack and to a cathode of the further semiconductor diode of the second stack; a second contact arranged on the upper side of the second stack, the second contact being electrically conductively connected to an anode of the further semiconductor diode of the second stack; and a third contact arranged below the underside of the first stack, the third contact being electrically conductively connected to an anode of a lowermost semiconductor diode of the first stack; a wherein the resistor whose one end is electrically conductively connected to the second contact and whose other end is electrically conductively connected to the third contact such that the further semiconductor diode is reverse biased by a source voltage of the optical voltage source between the first contact and the third contact. 20. The optical voltage source and decoupling device according to claim 19 , wherein the capacitor has one end electrically conductively connected to the second contact such that the decoupling device is configured to pick up the data signal between the second contact and the third contact.