Method and apparatus for scribing a line in a thin film using a series of laser pulses
First Claim
1. A laser-based processing method of front surface scribing a pattern in a thin film structure disposed on a substrate, the method comprising:
- providing a series of laser pulses, wherein each laser pulse in the series of laser pulses is characterized by a wavelength, a pulse energy, a pulse width between leading edge and trailing edge 10% power points, a predetermined laser pulse temporal power shape, and a laser spot area, wherein the pulse width is more than 1 ns and less than 10 ns, and wherein the fall time of the trailing edge between 90% to 10% power points is less than 2 ns;
directing the series of laser pulses along an optical path;
positioning the substrate having the thin film structure such that the thin film structure faces the optical path;
placing the laser spot of the first pulse at a spot position on the thin film structure;
removing at least a portion of the thin film; and
placing the laser spots of each of the following pulses in the series of pulses at spot positions along a pattern on the thin film such that each spot position is adjacent to the spot position of the laser spot of the previous pulse, and there is an overlap of spot positions such that an overlap area of each spot overlaps in some amount an overlap area of each previous spot.
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Accused Products
Abstract
A series of laser pulses in a pulse train, each pulse with a predetermined temporal power shape, scribes a line in a thin film of material on a substrate. The predetermined temporal pulse shape has a fast risetime and fast falltime and a pulse length between 10% power points of less than 10 ns. Scribing a line in the thin film is achieved by placing the series of laser pulse spots on the line to be scribed such that there is some overlapping area between adjacent laser pulse spots along the line. The use of a series of laser pulses with the predetermined pulse shape to scribe a line in the thin film results in a better quality and cleaner scribing process compared to that achieved with a conventional pulse shape.
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Citations
27 Claims
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1. A laser-based processing method of front surface scribing a pattern in a thin film structure disposed on a substrate, the method comprising:
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providing a series of laser pulses, wherein each laser pulse in the series of laser pulses is characterized by a wavelength, a pulse energy, a pulse width between leading edge and trailing edge 10% power points, a predetermined laser pulse temporal power shape, and a laser spot area, wherein the pulse width is more than 1 ns and less than 10 ns, and wherein the fall time of the trailing edge between 90% to 10% power points is less than 2 ns; directing the series of laser pulses along an optical path; positioning the substrate having the thin film structure such that the thin film structure faces the optical path; placing the laser spot of the first pulse at a spot position on the thin film structure; removing at least a portion of the thin film; and placing the laser spots of each of the following pulses in the series of pulses at spot positions along a pattern on the thin film such that each spot position is adjacent to the spot position of the laser spot of the previous pulse, and there is an overlap of spot positions such that an overlap area of each spot overlaps in some amount an overlap area of each previous spot. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A laser-based processing method of front surface scribing a pattern in a thin film structure disposed on a substrate, the method comprising:
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providing a series of laser pulses, wherein each laser pulse in the series of laser pulses is characterized by a wavelength, a pulse energy, a pulse width between leading edge and trailing edge 10% power points, a predetermined laser pulse temporal power shape, and a laser spot area, wherein the pulse width is more than 1 ns and less than 10 ns, and wherein the energy contained in the time period of the pulse following the trailing edge 50% power point is less than 5% of the pulse energy; directing the series of laser pulses along an optical path; positioning the substrate having the thin film structure such that the thin film structure faces the optical path; placing the laser spot of the first pulse at a spot position on the thin film structure; removing at least a portion of the thin film; and placing the laser spots of each of the following pulses in the series of pulses at spot positions along a pattern on the thin film such that each spot position is adjacent to the spot position of the laser spot of the previous pulse, and there is an overlap of spot positions such that an overlap area of each spot overlaps in some amount an overlap area of each previous spot. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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Specification