Patent ID: 9698012
Date: 2017-07-04
CPC Classifications: B23K,H01L

Claim:
1. A method for manufacturing low temperature poly-silicon film, comprising: providing a substrate; forming an amorphous silicon film; applying different temperatures to different regions of the amorphous silicon film by using an excimer laser annealing method, to change the amorphous silicon film into a molten state; and recrystallizating the amorphous silicon film in the molten state, a region having a lower temperature serving as a starting point, a region having a higher temperature serving as an end point, to form a low temperature poly-silicon film; wherein the step of “applying different temperatures to different regions of the amorphous silicon film by using an excimer laser annealing method, to change the amorphous silicon film into a molten state” comprises: the amorphous silicon film comprises a plurality of first regions and a plurality of second regions arranged at intervals, each first region is applied with a first temperature and each second region is applied with a second temperature, to change the first regions and the second regions of the amorphous silicon film into a molten state; and further comprising the following steps: providing a laser apparatus having a single laser source, the laser source being configured to generate a laser beam; providing a first polarizing apparatus and generating a first polarized light when the laser beam passes through the first polarizing apparatus; and providing a photo mask, wherein the photo mask comprises a plurality of first light transmission regions and a plurality of second light transmission regions arranged at intervals, wherein first parts of the first polarized light transmit through the first light transmission regions and second parts of the first polarized light first transmit through the second light transmission regions and then transmit through a second polarizing apparatus on each of the second transmission regions to be converted into a second polarized light by the second polarizing apparatus, wherein a polarization direction of the second polarized light is different from a polarization direction of the first polarized light, such that the first temperature is applied on each of the first regions when the first parts of the first polarized light that is formed by allowing the laser beam to transmit through the first polarizing apparatus irradiate the first regions through the first light transmission regions; and the second temperature is applied on each of the second regions when the second polarized light that is formed by allowing the first polarized light that is generated by allowing the laser beam to transmit through the first polarizing apparatus to subsequently transmit through the second polarizing apparatus and the second light transmission regions irradiates the second regions.