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577nm

COHR AR2007 final.qxd

COHR AR2007 final.qxd

…laser technology to match a wavelength to an application has led to the development of a high-power yellow (577nm) laser for use in the treatment of Age Related Macular Degeneration. The 577nm wavelength was designed to match the peak in absorption of oxygenated hemoglobin thereby allowing treatment…

10.3.2015 10K

10.3.2015 10K

…to an application has led to the development of a high-power yellow (577nm) laser for the treatment of eye related diseases, such as Age Related Macular Degeneration and retinal diseases associated with diabetes. The 577nm wavelength was designed to match the peak in absorption of oxygenated…

9.27.2014 10K

9.27.2014 10K

…to an application has led to the development of a high-power yellow (577nm) laser for the treatment of eye related diseases, such as Age Related Macular Degeneration and retinal diseases associated with diabetes. The 577nm wavelength was designed to match the peak in absorption of oxygenated…

10.3.2015 10K

10.3.2015 10K

…to an application has led to the development of a high-power yellow (577nm) laser for the treatment of eye related diseases, such as Age Related Macular Degeneration and retinal diseases associated with diabetes. The 577nm wavelength was designed to match the peak in absorption of oxygenated…

10.1.2016 10K

10.1.2016 10K

…to an application has led to the development of a high-power yellow (577nm) laser for the treatment of eye related diseases, such as Age Related Macular Degeneration and retinal diseases associated with diabetes. The 577nm wavelength was designed to match the peak in absorption of oxygenated…

Microsoft Word - Document1

Microsoft Word - Document1

Figure 2. The effectiveness of STED is clear in this pair of images of fluorescently tagged microtubuli in mammalian cells using a 577-nm Coherent Genesis laser to drive the STED effect: conventional confocal (left) and gated STED image (right). Image courtesy of Dr. Giuseppe Vicidomini and Dr.…

Bio Photonics - April 2015

Bio Photonics - April 2015

…Microscopy Figure 2. The effectiveness of STED is clear in this pair of images of fluorescently tagged microtubuli in mammalian cells using a 577-nm Coherent Genesis laser to drive the STED effect: conventional confocal (left) and gated STED image (right). Image courtesy of Dr. Giuseppe Vicidomini…

Bio Photonics - October 2015

Bio Photonics - October 2015

…Figure 4. Coherent's Genesis-557 was developed to improve laser photocoagulation outcomes for sufferers of certain forms of macular degeneration. The 577-nm output wavelength matches the absorption maximum of oxyhemoglobin and now dominates this important medical application. Courtesy of Coherent.

Bio Photonics - April 2015

Bio Photonics - April 2015

…Microscopy Figure 2. The effectiveness of STED is clear in this pair of images of fluorescently tagged microtubuli in mammalian cells using a 577-nm Coherent Genesis laser to drive the STED effect: conventional confocal (left) and gated STED image (right). Image courtesy of Dr. Giuseppe Vicidomini…

Bio Photonics - October 2015

Bio Photonics - October 2015

…Figure 4. Coherent's Genesis-557 was developed to improve laser photocoagulation outcomes for sufferers of certain forms of macular degeneration. The 577-nm output wavelength matches the absorption maximum of oxyhemoglobin and now dominates this important medical application. Courtesy of Coherent.

Bio Photonics - April 2015

Bio Photonics - April 2015

…Microscopy Figure 2. The effectiveness of STED is clear in this pair of images of fluorescently tagged microtubuli in mammalian cells using a 577-nm Coherent Genesis laser to drive the STED effect: conventional confocal (left) and gated STED image (right). Image courtesy of Dr. Giuseppe Vicidomini…

Photonics Spectra - June 2017

Photonics Spectra - June 2017

…Figure 2. The effectiveness of STED is clear in this pair of images of fluorescently tagged microtubuli in mammalian cells using a 577-nm laser to drive the STED effect: conventional confocal (left) and gated STED image (right). Zhen-liHuang,WuhanNationalLaboratoryfor…

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