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beam expander and line generator

FutureElectronics June2014.pdf

FutureElectronics June2014.pdf

…W. Fed into the LineBeam optical delivery system the result is a homogeneous excimer laser line beam with on-substrate dimensions up to 1,300 mm x 0.4 mm capable of fast, large-format generation 6 and generation 8 LTPS panel processing. The maximum throughput of today's most advanced Vyper/ LineBeam…

PHO v1 sstr std

PHO v1 sstr std

…automated assembly of these lasers means that every unit, regardless of wavelength, generates a beam with identical opto-mechanical parameters, including beam location, beam diameter, beam shape (energy profile), and beam pointing. Maximizing Speed, Sensitivity and Reliability The newest benchtop…

PHO v1 sstr std

PHO v1 sstr std

…automated assembly of these lasers means that every unit, regardless of wavelength, generates a beam with identical opto-mechanical parameters, including beam location, beam diameter, beam shape (energy profile), and beam pointing. Maximizing Speed, Sensitivity and Reliability The newest benchtop…

PHO v1 sstr std

PHO v1 sstr std

…automated assembly of these lasers means that every unit, regardless of wavelength, generates a beam with identical opto-mechanical parameters, including beam location, beam diameter, beam shape (energy profile), and beam pointing. Maximizing Speed, Sensitivity and Reliability The newest benchtop…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

Advances in Diode Lasers and OPSLs

Advances in Diode Lasers and OPSLs

…structure allows for laser beam shaping, including mode control and insertion of optical components, e.g. for frequency doubling. With this approach, an OPSL can generate a high-quality, diffraction-limited, single-transverse mode (TEM00) visible wavelength beam at high output powers. For example,…

IndustrialUltrafast Whitepaper.pdf

IndustrialUltrafast Whitepaper.pdf

…so that the beam is absorbed at the next layer, which must be a strongly absorbing material. All the pulse energy from the laser is thus absorbed in the first few nanometers of this underlying layer. Because the absorption occurs at an enclosed interface, there is nowhere for the expanding vaporized…

IndustrialUltrafast Whitepaper.pdf

IndustrialUltrafast Whitepaper.pdf

…so that the beam is absorbed at the next layer, which must be a strongly absorbing material. All the pulse energy from the laser is thus absorbed in the first few nanometers of this underlying layer. Because the absorption occurs at an enclosed interface, there is nowhere for the expanding vaporized…

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