Porous membrane sensor element

The invention claimed is: 1 . A sensor element for detecting an analyte in a fluid sample by optical probing, the sensor element comprising: (a) a translucent membrane with a front side defining a sensor surface for contacting the fluid sample, the front side facing the fluid sample, and a back side facing away from the front side; (b) at the front side of the translucent membrane, a reflective layer; (c) an optical input port adjacent to the back side of the translucent membrane for feeding probing light to the translucent membrane through the back side; (d) an optical output port adjacent to the back side of the translucent membrane for collecting an optical response from the translucent membrane through the back side; and (e) an optical constriction element, the optical constriction element comprising a screen element arranged between the input port and the output port, thereby optically separating the output port from the input port, the optical constriction element further comprising a reflective element arranged at the back side of the translucent membrane and facing towards the reflective layer at a vertical distance D therefrom, thereby defining a probing region as being between the reflective element and the reflective layer and within the translucent membrane, whereby light travelling from the input port to the output port is confined to pass through the probing region, wherein at least the probing region comprises pores extending from respective openings at the sensor surface into the translucent membrane. 2 . The sensor element according to claim 1 , further comprising a light source connected to the optical input port, wherein the light source is configured for emitting the probing light. 3 . The sensor element according to claim 1 , further comprising a detector connected to the optical output port, wherein the detector is configured for detecting light emerging from the probing region, and wherein the detector is adapted to generate a signal representative of the detected light. 4 . The sensor element according to claim 1 , wherein the reflective element has a width Wr as seen in a transverse direction parallel to the sensor surface that is less than a width of the sensor surface Ws as seen in the transverse direction, or less than half the width of the sensor surface Ws. 5 . The sensor element according to claim 1 , wherein the distance D of the reflective element from the reflective layer as seen in a vertical direction is less than 500 μm. 6 . The sensor element according to claim 1 , wherein a width Wr of the reflective element as seen in a transverse direction is less than 5 mm. 7 . The sensor element according to claim 1 , wherein an aspect ratio of the distance D of the reflective element from the reflective layer in a vertical direction with respect to a width Wr of the reflective element in a transverse direction parallel to the sensor surface is at least 1:2. 8 . A sensor assembly comprising: (a) a sensor element according to claim 1 ; and (b) a sample chamber comprising a sample space for holding the fluid sample, the sample space being defined by chamber walls; wherein the sensor element is arranged in one of the chamber walls, wherein the sensor surface faces towards the sample space. 9 . The sensor assembly according to claim 8 , further comprising an inlet and an outlet defining a direction of flow from the inlet towards the outlet for fluid handling in the sample chamber, wherein the sensor element is oriented such that a transverse direction of the sensor element is perpendicular with respect to the direction of the flow. 10 . The sensor assembly according to claim 9 , wherein a reflective element width Wr is less than a width Wa of the sample space as seen in the transverse direction of the sensor element, or less than half of the sample space width Wa. 11 . The sensor element according to claim 1 , wherein the distance D of the reflective element from the reflective layer as seen in a vertical direction is less than 200 μm. 12 . The sensor element according to claim 1 , wherein the distance D of the reflective element from the reflective layer as seen in a vertical direction is less than 100 μm. 13 . The sensor element according to claim 1 , wherein the distance D of the reflective element from the reflective layer as seen in a vertical direction is about 50 μm. 14 . The sensor element according to claim 1 , wherein a width Wr of the reflective element as seen in a transverse direction is less than 2 mm. 15 . The sensor element according to claim 1 , wherein a width Wr of the reflective element as seen in a transverse direction is less than 1 mm. 16 . The sensor element according to claim 1 , wherein a width Wr of the reflective element as seen in a transverse direction is less than 0.5 mm. 17 . The sensor according to claim 1 , wherein an aspect ratio of the distance D of the reflective element from the reflective layer in a vertical direction with respect to a width Wr of the reflective element in a transverse direction parallel to the sensor surface is at least 1:2. 18 . The sensor element according to claim 1 , wherein an aspect ratio of the distance D of the reflective element from the reflective layer in a vertical direction with respect to a width Wr of the reflective element in a transverse direction parallel to the sensor surface is at least 1:5. 19 . The sensor element according to claim 1 , wherein an aspect ratio of the distance D of the reflective element from the reflective layer in a vertical direction with respect to a width Wr of the reflective element in a transverse direction parallel to the sensor surface is at least 1:20. 20 . The sensor element according to claim 1 , wherein an aspect ratio of the distance D of the reflective element from the reflective layer in a vertical direction with respect to a width Wr of the reflective element in a transverse direction parallel to the sensor surface is at least 1:50. 21 . The sensor element according to claim 1 , wherein the pores are filled with a priming fluid. 22 . A sensor element for detecting an analyte in a fluid sample by optical probing, the sensor element comprising: (a) a translucent membrane with a front side defining a sensor surface for contacting the fluid sample, and a back side facing away from the front side, wherein the translucent membrane defines a thickness; (b) at the front side of the translucent membrane, a reflective layer; (c) an optical input port connected to the back side of the translucent membrane for feeding probing light to the translucent membrane through the back side; (d) an optical output port connected to the back side of the translucent membrane for collecting an optical response from the translucent membrane through the back side; and (e) an optical constriction element, the optical constriction element comprising a screen element arranged between the input port and the output port, thereby optically separating the output port from the input port, the optical constriction element further comprising a reflective element arranged on the back side of the translucent membrane and facing towards the reflective layer at a vertical distance D therefrom, thereby defining a probing region as being between the reflective element and the reflective layer and within the translucent membrane, wherein the vertical distance D and the thickness are the same, whereby light travelling from the input port to the outpu