Compact detection module for flow cytometers

What is claimed is: 1. An apparatus comprising: a first light detection module to demultiplex a first fluorescent light in a first range of wavelengths, the first light detection module including a first plurality of detectors in a first row; a first transparent block adjacent the first plurality of detectors, a first plurality of micro-mirrors coupled to a first side of the first transparent block, and a first plurality of filters in a first row coupled to a second side of the first transparent block opposite the first side, each of the first plurality of filters to reflect light to one of the first plurality of micro-mirrors and pass light of a different wavelength range towards one of the first plurality of detectors. 2. The apparatus of claim 1 , further comprising: a second light detection module to demultiplex a second fluorescent light in a second range of wavelengths, the second light detection module including a second plurality of detectors in a second row; a second transparent block adjacent the second plurality of detectors, a second plurality of micro-mirrors coupled to a first side of the second transparent block, and a second plurality of filters in a second row coupled to a second side of the second transparent block opposite the first side, each of the second plurality of filters to reflect light to one of the second plurality of micro-mirrors and pass light of a different wavelength range towards one of the second plurality of detectors. 3. The apparatus of claim 2 , further comprising: an input channel coupled in light communication with the first light detection module and the second light detection module, the input channel to receive a fluorescent light beam and split it into the first fluorescent light in the first range of wavelengths and the second fluorescent light in the second range of wavelengths. 4. The apparatus of claim 3 , wherein the input channel includes a wavelength beam splitter (other than power beam splitter) to split the fluorescent light beam into the first fluorescent light and the second fluorescent light. 5. The apparatus of claim 3 , wherein the input channel further includes a collimating lens to receive the fluorescent light from an optical fiber and collimate the fluorescent light, and a blocking filter to reject a laser light used to stimulate fluorochromes in the fluorescent light and pass the fluorescent light to the beam splitter. 6. The apparatus of claim 5 , wherein the input channel further includes a first focusing lens in light communication with the beam splitter, the first focusing lens to focus the first fluorescent light onto a first filter of the first plurality of filters, and a second focusing lens in light communication with the beam splitter, the second focusing lens to focus the collimated light with the second range of wavelengths onto a first filter of the second plurality of filters.