| abstract |
A multi-channel bio-separation detection method and apparatus in which a single detector is coupled to a plurality of radiation sources, in a one detector/many radiation sources configuration. Each radiation source directs radiation at one detection zone of a single separation channel, and a single detector is applied to detect light emissions from the detection zones of several separation channels. The light sources direct radiation at the detection zones in a predetermined sequence and further in a cyclic manner, with the detector output synchronized to the light sources by a controller. Bio-separation may be conducted simultaneously in all the channels in parallel, with detection time-staggered and/or time multiplexed with respect to the light sources. In one embodiment, low cost light emitting diodes may be used as light sources. In another aspect, the detection scheme is configured for radiation induced fluorescence detection in a multi-channel capillary electrophoresis instrument. |