Optical measurement probe

The invention claimed is: 1. An optical measurement probe for detecting measurement values of a measurand of a measuring fluid, comprising: a probe housing having at least one immersion region configured to be immersed in the measuring fluid; an indicator chamber defined in the probe housing and closed on a side thereof in the immersion region of the probe housing by a membrane, wherein an indicator is contained in the indicator chamber, wherein the indicator comprises an aggregation-induced emission active (AIE-active) substance dissolved in a primary solvent to form an indicator solution or indicator gel, which AIE-active substance is formed from species whose luminescence efficiency is increased via formation of aggregates containing the species, wherein the primary solvent is water or an ionic liquid, wherein the indicator includes at least one auxiliary substance that increases the solubility of the AIE-active substance and/or decreases a boiling temperature of the indicator, wherein the at least one auxiliary substance is different than the primary solvent and is a compound having a molecular weight of greater than 200 g/mol; a radiation source disposed in the probe housing and configured to emit radiation into the indicator chamber as to generate radiation in the indicator; and a radiation receiver disposed in the probe housing and configured to detect the generated radiation emitted from the indicator within the chamber, wherein the measurand represents a concentration of an analyte in the measuring medium determined from the generated radiation emitted from the indicator, which is detected by the radiation receiver, wherein the membrane is permeable to the analyte, and wherein the membrane is impermeable to the AIE-active substance of the indicator and to the at least one auxiliary substance. 2. The optical measurement probe of claim 1 , wherein the indicator chamber is disposed in a sensor capsule connected to a probe body, wherein the probe housing comprises the sensor capsule and the probe body. 3. The optical measurement probe of claim 2 , wherein the sensor capsule is reversibly connected to the probe body. 4. The optical measurement probe of claim 2 , further comprising a sensor circuit electrically connected to the radiation source and the radiation receiver, wherein the radiation source, the radiation receiver and the sensor circuit are disposed in the probe body. 5. The optical measurement probe of claim 1 , further comprising an optical waveguide adapted to guide radiation emitted from the radiation source into the indicator chamber and to guide luminescence radiation from the indicator chamber to the radiation receiver. 6. The optical measurement probe of claim 1 , wherein the indicator chamber is fluidically connected via a first fluid conduit to a reservoir disposed outside of the indicator chamber, the reservoir containing a liquid including the indicator. 7. The optical measurement probe of claim 6 , wherein the indicator chamber is fluidically connected to a second fluid conduit for liquid discharge from the indicator chamber. 8. The optical measurement probe of claim 2 , further comprising an ultrasound source integrated into the sensor capsule and configured to agitate the indicator as to facilitate homogenization of the indicator in the indicator chamber. 9. The optical measurement probe of claim 1 , wherein the at least one auxiliary substance is a surfactant, or wherein the AIE-active substance is a surfactant, having a polar part and a non-polar part, which may form micelles in solution. 10. The optical measurement probe of claim 1 , wherein the indicator includes an inorganic or organic pH buffer. 11. The optical measurement probe of claim 1 , wherein the indicator is composed as to be temperature-stable up to a temperature of at least 120° C. and/or remains stable upon irradiation with gamma radiation of more than 5 kGy. 12. The optical measurement probe of claim 11 , wherein the indicator is further composed to remain stable upon irradiation with gamma radiation of more than 25 kGy. 13. An arrangement for detecting measurement values of a measurand of a measuring fluid, the arrangement comprising: an optical measurement probe including: a probe housing having at least one immersion region configured to be immersed in the measuring fluid; an indicator chamber defined in the probe housing and closed on a side thereof in the immersion region of the probe housing by a membrane, wherein an indicator is contained in the indicator chamber, wherein the indicator comprises an aggregation-induced emission active (AIE-active) substance dissolved in a primary solvent to form an indicator solution or indicator gel, which AIE-active substance is formed from species whose luminescence efficiency is increased via formation of aggregates containing the species, wherein the primary solvent is water or an ionic liquid wherein the indicator includes at least one auxiliary substance that increases the solubility of the AIE-active substance and/or decreases a boiling temperature of the indicator, wherein the at least one auxiliary substance is different than the primary solvent and is a compound having a molecular weight of greater than 200 g/mol; a radiation source disposed in the probe housing and configured to emit radiation into the indicator chamber as to generate radiation in the indicator; and a radiation receiver disposed in the probe housing and configured to detect the generated radiation emitted from the indicator within the chamber, wherein the measurand represents a concentration of an analyte in the measuring medium determined from the generated radiation emitted from the indicator, which is detected by the radiation receiver, wherein the membrane is permeable to the analyte, and wherein the membrane is impermeable to the AIE-active substance of the indicator and to the at least one auxiliary substance; and a superordinate unit in communication with the measurement probe, wherein the measurement probe and the superordinate unit are coupled with one another via a releasable connection, the connection configured to transmit energy uni-directionally from the superordinate unit to the measurement probe. 14. The arrangement of claim 13 , wherein the superordinate unit is a measuring transducer, control electronics or power supply, and wherein the connection is an inductive coupling or a radio connection. 15. The arrangement of claim 13 , wherein the connection is a galvanically-isolated connection. 16. The arrangement of claim 13 , wherein the superordinate unit includes a data processing unit, and wherein data are transmitted bi-directionally between the measurement probe and the superordinate data processing unit via the connection. 17. The optical measurement probe of claim 1 , wherein the indicator chamber includes a coating on surfaces of the indicator chamber in contact with the indicator contained in the indicator chamber, the coating configured to counteract an aggregation of the AIE-active substance at an interface between the indicator chamber and the indicator. 18. An optical measurement probe for detecting measurement values of a measurand of a measuring fluid, comprising: a probe housing having at least one immersion region configured to be immersed in the measuring fluid; an indicator chamber defined in the probe housing and closed on a side thereof in the immersion region of the probe housing by a membrane, wherein an indicator is contained in the indicator chamber, wherein the indicator comprises an aggregation-i