Imaging multiple chemical reactions in a flow cell array

What is claimed is: 1. A method comprising: placing multiple physical reaction sites on a first component, wherein the first component comprises a two-by-two physical element flow cell array, and wherein each of the physical elements within the two-by-two flow cell array is of a size of approximately one micrometer, and wherein placing comprises positioning the multiple physical reaction sites within the first component such that a distance between at least a portion of the multiple physical reaction sites is smaller than an optical resolution perpendicular to the optical path of a given fluorescence microscope, and wherein the distance is less than one micron; providing multiple items of chemical matters for the multiple physical reaction sites in surface channels of the first component; connecting the first component to a second component, wherein the surface channels of the first component connect the multiple physical reaction sites to the second component using vias, and wherein the second component comprises the vias connected to multiple sub-surface channels, wherein connecting the first component to the second component comprises aligning the surface channels of the first component with the vias of the second component to form a connection between the first component and the second component and enable the multiple items of chemical matters to move through the surface channels, through the vias, to the multiple sub-surface channels; and imaging, subsequent to said providing, multiple parallel chemical reactions at the multiple reaction sites of the physical element flow cell array using the given fluorescence microscope, wherein the multiple parallel chemical reactions comprise multiple instances of biological sequencing, and wherein the distance between two or more of the multiple physical reaction sites being imaged simultaneously is greater than the optical resolution of the given fluorescence microscope while the distance between two or more of the other multiple physical reaction sites is less than the optical resolution of the given fluorescence microscope and less than one micron. 2. The method of claim 1 , wherein providing comprises independently delivering the multiple items of chemical matters to each of the multiple physical reaction sites.