The major applications that will benefit from the high power of the Genesis CX355 -250 are in flow cytometry of live-cells, such as egg and fertilized-egg sorting, where the peak power of older, mode-locked lasers poses significant risk of mutagenic damage to the DNA in the sorted cells. In addition, the high power of this new laser is ideal for use in the latest high-throughput cytometers incorporating two parallel laser interaction cells. The Genesis CX355 -250 is also an excellent source for other fluorescence-based applications, including confocal microscopy, where its short wavelength and low M2 beam provide optimum excitation of Hoechst and Indo dyes. Moreover, these confocal microscopes often rely on fiber delivery which can be problematic for the high peak power levels of quasi-CW lasers. In addition, the Genesis CX355 -250 is expected to find applications in some 3D prototyping applications, i.e., stereolithography.
New UV Laser Sets High Power Benchmark for CW Output
The major applications that will benefit from the high power of the Genesis CX355 -250 are in flow cytometry of live-cells, such as egg and fertilized-egg sorting, where the peak power of older, mode-locked lasers poses significant risk of mutagenic damage to the DNA in the sorted cells. In addition, the high power of this new laser is ideal for use in the latest high-throughput cytometers incorporating two parallel laser interaction cells. The Genesis CX355 -250 is also an excellent source for other fluorescence-based applications, including confocal microscopy, where its short wavelength and low M2 beam provide optimum excitation of Hoechst and Indo dyes. Moreover, these confocal microscopes often rely on fiber delivery which can be problematic for the high peak power levels of quasi-CW lasers. In addition, the Genesis CX355 -250 is expected to find applications in some 3D prototyping applications, i.e., stereolithography.