Determining time response value of an analyte in a liquid

The invention claimed is: 1 . An apparatus for determining one or more time response values of an analyte or a group of analytes in a liquid comprising: (a) a translucent element comprising pores, wherein the pores are dead end pores extending into the translucent element from respective openings in the translucent element, wherein a cross-sectional dimension of the openings of the pores is dimensioned so as to prevent larger particles or debris from entering the pores, while allowing the analyte or the group of analytes in the liquid to enter the pores via diffusion, (b) one or more light sources being adapted to transmit light through the translucent element and thereby illuminate at least the pores in the translucent element, (c) a light detector being adapted to at each of multiple points in time receive light emerging from the pores in response to illumination by the one or more light sources, wherein the light detector is further adapted to generate one or more signals based on the received light, each of the one or more signals being temporally resolved and representative of at least a part of the received light, and (d) a data processing device comprising a processor configured to determine one or more time response values based on the one or more signals, wherein the data processing device is further configured to determine a concentration of the analyte or the group of analytes in the liquid based on the one or more signals, and wherein the data processing device is further configured to determine if a concentration of the analyte or the group of analytes in the liquid is above a first predetermined concentration value and/or is below a second predetermined concentration value. 2 . An apparatus according to claim 1 , wherein the one or more light sources and/or the light detector are operatively coupled to the data processing device comprising a processor, and wherein the data processing device comprising a processor is further arranged to obtain a plurality of signals for different wavelength intervals, and determine a plurality of time response values by determining for each of the signals within the plurality of signals a time response value. 3 . An apparatus according to claim 2 , wherein the data processing device is further configured to determine an adjusted time response value, wherein the adjusted time response value is determined based on at least two time response values within the plurality of time response values. 4 . An apparatus according to claim 1 , wherein the one or more light sources and/or the light detector is arranged for obtaining a plurality of signals for different wavelength intervals. 5 . An apparatus according to claim 1 , wherein the data processing device is further configured to determine an adjusted time response value, wherein the adjusted time response value is determined based on at least two time response values. 6 . An apparatus according to claim 1 , wherein the data processing device is further configured to determine a ratio between a time response value obtained for a first wavelength interval and a time response value obtained for a second wavelength interval. 7 . An apparatus according to claim 1 , wherein the one or more light sources and/or the light detector are operatively coupled to the data processing device comprising a processor, and wherein the data processing device comprising a processor is further arranged to obtain a first signal at a first wavelength interval, obtain a second signal at a second wavelength interval, wherein the second wavelength interval is different from the first wavelength interval, and determine a ratio between: a first time response value obtained for the first wavelength interval, and a second time response value obtained for the second wavelength interval. 8 . An apparatus according to claim 1 , wherein the one or more time response values are based on one or more differences in signal values within each of the one or more signals where said signal values are obtained at different points in time, and/or is one or more characteristic times. 9 . An apparatus according to claim 1 , wherein the determined concentration of the analyte or the group of analytes in the liquid is based on the one or more time response values. 10 . An apparatus according to claim 1 , wherein the data processing device is arranged to detect the analyte or the group of analytes. 11 . An apparatus according to claim 1 , wherein the data processing device is further arranged to determine a difference measure indicative of a difference. 12 . An apparatus according to claim 1 , wherein the translucent element comprises material, which has an attenuation coefficient so that an, optionally partially or wholly diffuse, transmission coefficient of light through the material is at least 50% for a length through the material of 100 micrometers. 13 . An apparatus according to claim 1 , further comprising an optical assembly comprising a light guide core, the light guide core comprising an input branch, an output branch, and a coupling interface arranged to contact a back side of the translucent element opposite to a front side. 14 . An apparatus according to claim 1 , further comprising a housing penetrated by a flow channel defining an axial direction, the flow channel comprising a sample space and being arranged so that the pores on a front side define a sensor surface for contacting the liquid. 15 . An apparatus according to claim 1 , wherein the apparatus is arranged for optically probing the liquid disposed inside the pores from a front side facing a back side. 16 . An apparatus according to claim 1 , wherein the one or more light sources is adapted to illuminate at least the pores in the translucent element, from a front side towards a back side, and the detector is arranged to receive light emerging from the pores, and wherein the light detector is adapted to generate a signal representative of the received light, which has been emitted from the pores in a direction away from the front side in a direction facing the back side. 17 . An apparatus according to claim 1 , wherein the one or more light sources is adapted to illuminate at least the pores in the translucent element, wherein light from the one or more light sources reaching the pores need not have traversed a volume being fluidically connected with the pores and being outside of the translucent element, and the light detector is arranged to receive light emerging from the pores, and wherein the light detector is adapted to generate a signal representative of the received light, wherein light emitted from the pores and reaching the light detector need not have traversed a volume being fluidically connected with the pores and being outside of the translucent element. 18 . An apparatus according to claim 1 , wherein the apparatus is configured for measuring absorbance. 19 . A method for determining one or more time response values of an analyte or a group of analytes in a liquid comprising providing an apparatus according to claim 1 , contacting the pores of the apparatus with the liquid, illuminating with the one or more light sources at least the pores through the translucent element, at each of multiple points in time receiving light emerging from the pores in response to the illumination, generating one or more signals based on the received light, each of the one or more signals being temporally resolved and representative of at least a part of the received light, and deter