Sensing device for detecting a target substance

The invention claimed is: 1. A sensing device for detecting a target substance in an investigation region, comprising: a carrier including a sensing surface exposed to the target substance, the carrier including an investigation region and a reference region; a light source generates an incident light beam directed to reflect at the investigation region and the reference region, thereby generating reflected light; wherein the carrier is of a material transparent for the incident light beam, a reference element located in contact with the sensing surface at the reference region wherein the reference element shields the sensing surface in the reference region from the target substance such that light reflected at the reference region remains unaffected by a presence or absence of the target substance; a calibrator compares an intensity of the totally internally reflected light from both the reference region and the investigation region; wherein the calibrator determines an influence of the target substance on the intensity of the light reflected at the investigation region wherein the reference element has a refractive index and dimensions such that an evanescent field elicited at the reference region is unaffected by the presence or absence of the target substance; wherein the sensing surface at the reference region is tilted relatively to the sensing surface of the investigation region by an angle β to allow incidence of the incident light beam at the reference region to be the angle β shallower than that of a parallel incident light beam at the investigation region and still strike the investigation surface at an angle equal to or greater than a critical angle for total internal reflectance. 2. The sensing device according to claim 1 , wherein the target substance includes a bead with a coupling section for coupling to an analyte and the analyte is disposed in a medium in the investigation region. 3. The sensing device according to claim 2 , wherein the sensing device senses the presence of a substance in the medium at a concentration of less than or equal to 1 nM. 4. The sensing device according to claim 1 , wherein the reference region is disposed adjacent to the investigation region. 5. The sensing device according to claim 1 , wherein the reference region comprises a mirror to reflect incident light. 6. The sensing device according to claim 1 , wherein the sensing device is a cartridge having a carrier comprising the sensing surface thereon. 7. The sensing device comprising: a cartridge including: a sensing surface, an investigation region receives a fluid containing the target substance, the sensing surface forming one side of the investigation region, a reference element disposed directly adjacent the sensing surface such that the fluid containing the target substance does not pass between the reference element and the sensing surface; a light source directs an incident light beam toward the sensing surface at an angle for reflection under total internal reflection conditions at the investigation region and at the reference region generating reflected light, the reflected light from the reference region directly adjacent the reference element being not affected by a presence or absence of the fluid; a detector detects the reflected light and generates a first characteristic signal depending on the reflection at the investigation region and a second characteristic signal depending on the reflected light from the reference surface abutting the reference element; a calibrator calibrates the first characteristic signal in view of the second characteristic signal; and wherein the sensing surface at the reference region is tilted relatively to the sensing surface of the investigation region by an angle β to allow incidence of the incident light beam at the reference region to be the angle β shallower than that of a parallel incident light beam at the investigation region and still strike the investigation surface at an angle equal to or greater than a critical angle for total internal reflectance. 8. The sensing device according to claim 7 , wherein the calibrator corrects or ameliorates a drift in the first characteristic signal in view of the second characteristic signal. 9. The sensing device according to claim 1 , in combination with an analyzing device for detecting the target substance, wherein the analyzing device comprises: an analysis region for accommodating the sensing device; the light source directs the incident light beam to the analysis region including the investigation region and the reference region of the sensing surface at an angle such that the incident light beam is reflected under total internal reflection conditions at the investigation region and the reference region; a detector detects the reflected light and yields a first characteristic signal depending on the reflected light from the investigation region and a second characteristic signal depending on the reflected light from the reference region; wherein the calibrator corrects the first characteristic signal based on the second characteristic signal. 10. An analyzer system for detecting a target substance comprising: a sensing device including: a sensing surface defining an investigation region and a reference region thereon the sensing surface, or the reference region being tilted by an angle β, relative to the sensing surface at the investigation region, a reference element located at the reference region shields the reference region of the sensing surface from contacting the target substance such that light reflected at the reference region remains unaffected by a presence or absence of the target substance, an analyzer device comprising: an analysis region receives the sensing device, a light source directs incident light to the analysis region such that the incident light is directed to the investigation region incident light is reflected under total internal reflection conditions at at an angle equal to or greater than a critical angle θ crit =sin −1 (n 2 /n 1 ), where n 1 is the refractive index of the sensing surface and n 2 is the refractive index of the target substance and directed to the reference region at an angle θ crit −β thereby generating reflected light, when the sensing device is received in the analysis region, a detector detects the reflected light and outputs a first characteristic signal depending on the light reflected by the investigation region and a second characteristic signal depending on the light reflected by the reference region, a calibrator calibrates the first characteristic signal in view of the second characteristic signal. 11. The analyzer system according to claim 10 , wherein the calibrator corrects or ameliorates a drift in the first characteristic signal in view of the second characteristic signal. 12. The sensing device according to claim 7 , wherein the reference element has such refractive index and dimensions such that an evanescent field elicited by total internal reflection at the reference element region remains unaffected by the presence or absence of the target substance. 13. The analyzer system according to claim 10 , wherein the reference element has such refractive index and dimensions such that an evanescent field elicited at the reference region remains unaffected by the presence or absence of the target substance. 14. A method for detecting a target substance, the method comprising: directing an incident light beam toward a sensing surface which defines an investigation region and a reference region, the reference region including a reference element disposed to shie