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37 - 48 of 242 Products for 'excimer laser crystallization' Page 4 of 21 |

excimer laser crystallization

Lasers-for-Materials-Processing-Brochure.pdf

Lasers-for-Materials-Processing-Brochure.pdf

…smartphone and tablets. Laser crystallized polysilicon also provides the stability required to drive OLED displays. Depending on the materials and layer structure of the thin films, different laser wavelengths, pulse widths and power levels are used.The VYPER excimer laser is our "workhorse" to…

50th-Laser-Anniversary-Annealing.pdf

50th-Laser-Anniversary-Annealing.pdf

…achievable in laser materials processing is inversely related to the laser wavelength -- the shorter the emission, the greater the achievable resolution. A UV excimer laser therefore offers considerable advantages over visible or infrared lasers for many applications. Excimer lasers take their name…

Lasers-for-Medical-Brochure

…based laser that would overcome current solid-state laser limitations of wavelength and power scalability. The Optically Pumped Semiconductor Laser (OPSL), established as the next generation of solid-state laser technology, uses a semiconductor chip instead of a laser crystal as the laser medium.…

Lasers-for-Medical-Brochure.pdf

Lasers-for-Medical-Brochure.pdf

…based laser that would overcome current solid-state laser limitations of wavelength and power scalability. The Optically Pumped Semiconductor Laser (OPSL), established as the next generation of solid-state laser technology, uses a semiconductor chip instead of a laser crystal as the laser medium.…

Laser-Enable-Smartphone.pdf

Laser-Enable-Smartphone.pdf

…melt with each individual pulse. This leads to efficient crystal formation due to crystal growth in the vertical direction, starting at the interface between the molten and residual unmolten silicon. ELA requires an excimer laser that combines high pulse energy (up to 2 joules) and repetition…

Lasers-Enable-Smartphone-Manufacturing.pdf

Lasers-Enable-Smartphone-Manufacturing.pdf

…melt with each individual pulse. This leads to efficient crystal formation due to crystal growth in the vertical direction, starting at the interface between the molten and residual unmolten silicon. ELA requires an excimer laser that combines high pulse energy (up to 2 joules) and repetition…

Lasers-Enable-Smartphone.pdf

Lasers-Enable-Smartphone.pdf

…melt with each individual pulse. This leads to efficient crystal formation due to crystal growth in the vertical direction, starting at the interface between the molten and residual unmolten silicon. ELA requires an excimer laser that combines high pulse energy (up to 2 joules) and repetition…

Lasers-Enable-Smartphone-Manufacturing.pdf

Lasers-Enable-Smartphone-Manufacturing.pdf

…melt with each individual pulse. This leads to efficient crystal formation due to crystal growth in the vertical direction, starting at the interface between the molten and residual unmolten silicon. ELA requires an excimer laser that combines high pulse energy (up to 2 joules) and repetition…

Lasers-Enable-Smartphone-Manufacturing.pdf

Lasers-Enable-Smartphone-Manufacturing.pdf

…melt with each individual pulse. This leads to efficient crystal formation due to crystal growth in the vertical direction, starting at the interface between the molten and residual unmolten silicon. ELA requires an excimer laser that combines high pulse energy (up to 2 joules) and repetition…

Highlights No. 63 | 12.11.QXP

Highlights No. 63 | 12.11.QXP

…setup is shown in Figure 1. LPP-radiation is generated by an excimer laser (Lambda Physik: LPX® 202, = 308 nm) that is operated in a stable resonator mode, where the divergence of the laser beam is of the order of ~5 mrad. The laser beam is focused onto a tungsten wire, which is pulled through…

Laser-Lift-Off-Systems-for-Flexible-Display-Production.pdf

Laser-Lift-Off-Systems-for-Flexible-Display-Production.pdf

…the excimer laser line beam of a 308 nm wavelength is shown through the carrier glass substrate on the polymer. Only the polymer in the direct vicinity of the glass substrate is evaporated, as illustrated in Figure 2. LLO separation using the 308 nm excimer laser occurs within a single laser pulse…

Laser-Lift-off-Systems-for-Flexible-Display-Production.pdf

Laser-Lift-off-Systems-for-Flexible-Display-Production.pdf

…the excimer laser line beam of a 308 nm wavelength is shown through the carrier glass substrate on the polymer. Only the polymer in the direct vicinity of the glass substrate is evaporated, as illustrated in Figure 2. LLO separation using the 308 nm excimer laser occurs within a single laser pulse…

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