Apparatuses, systems, and methods for sample testing

The invention claimed is: 1. A sample sensing device comprising: a waveguide component comprising: a waveguide layer defining a first waveguide portion and a second waveguide portion, wherein the waveguide layer further defines a step portion protruding out vertically from the first waveguide portion, wherein the step portion connects the first waveguide portion with the second waveguide portion, and wherein a thickness of the second waveguide portion is greater than a thickness of the first waveguide portion, wherein the first waveguide portion receives a light portion configured to transverse through the first waveguide portion and the second waveguide portion; and an interface layer having a sample opening, said sample opening configured to allow a sample to be disposed on a surface of the second waveguide portion, wherein an identity of the sample is configured to be detected based on an interference fringe pattern generated by propagation of light in the first waveguide portion and the second waveguide portion and the sample disposed on the surface of the second waveguide portion; wherein the first waveguide portion is configured to allow propagation of light in at least one or more transversal mode, wherein the second waveguide portion is configured to allow propagation of light in at least one or more transversal mode, wherein a count of traversal mode for propagation of light in the second waveguide portion is more compared to a count of traversal modes of propagation of light in the first waveguide portion. 2. The sample sensing device of claim 1 , further comprising: a cover layer coupled to the waveguide component via at least one sliding mechanism, wherein the cover layer comprises a sample opening. 3. The sample sensing device of claim 2 , wherein the cover layer is disposed on an opening layer and moveable between a first position and a second position. 4. The sample sensing device of claim 3 , wherein, when the cover layer is at the first position, the sample opening overlaps with a first opening. 5. The sample sensing device of claim 3 , wherein, when the cover layer is at the second position, the sample opening does not overlap with the first opening. 6. The sample sensing device of claim 1 , wherein a diameter of the first opening of the opening layer is larger than a diameter of the sample opening of the waveguide component. 7. The sample sensing device of claim 1 , wherein the first opening is etched. 8. The sample sensing device of claim 1 , further comprising: an integrated optical component coupled to the waveguide component, wherein the integrated optical component comprises a collimator element and a beam splitter element. 9. The sample sensing device of claim 8 , wherein the beam splitter element comprises a first prism element and a second prism element, wherein the second prism element is attached to a first oblique surface of the first prism element, wherein the first prism element and the second prism element form a cube shape. 10. The sample sensing device of claim 8 , wherein the beam splitter element comprises a polarization beam splitter. 11. The sample sensing device of claim 9 , wherein the collimator element is attached to a second oblique surface of the first prism element. 12. The sample sensing device of claim 8 , further comprising: a light source component coupled to the integrated optical component, wherein the light source component is configured to emit a laser light beam. 13. The sample sensing device of claim 12 , wherein the integrated optical component is disposed on the top surface of the waveguide layer. 14. The sample sensing device of claim 12 , further comprising: a lens component disposed on a first surface of the interface layer, wherein the lens component at least partially overlaps with an output opening on the first surface of the interface layer, wherein a light exiting the waveguide component passes through the lens component. 15. The sample sensing device of claim 14 , further comprising: an imaging component disposed on the first surface of the lens component. 16. The sample sensing device of claim 15 , wherein the imaging component is configured to detect the interference fringe pattern. 17. The sample sensing device of claim 1 , further comprising: a lens array component disposed on a first surface of the waveguide component, wherein the lens array component directs the light received from the integrated optical component to the waveguide layer. 18. The sample sensing device of claim 17 , wherein the lens array component comprises at least one micro lens array, wherein a first shape of a first optical lens of the lens array component is different from a second shape of a second optical lens of the lens array component. 19. The sample sensing device of claim 18 , wherein a first surface curvature of the first optical lens is different from a second surface curvature of the second optical lens in a waveguide light transfer direction.