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Ultrashort-pulse laser calligraphy
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1.
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Image of FIG. 1.

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FIG. 1.

Microscope bright field image of the line structures written using femtosecond pulses with (a) positive pulse front tilt or (b) negative pulse front tilt. The distance between the lines is . The writing direction is shown by the arrow. The respective screen shots containing measured laser pulse parameters by GRENOUILLE device are shown.

Image of FIG. 2.

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FIG. 2.

Microscope images without polarizers (light part) and in crossed polarizers (dark part) of the line structures fabricated with two mirrors (a) and three mirrors (b) in the writing setup at pulse energy. The pulse front is shown by the red line in the setup schematic. is the wave vector of the writing laser.

Image of FIG. 3.

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FIG. 3.

[(a) and (b)] Bight field images with different magnifications of the line structures fabricated in opposite directions (a) and (b) with pulse energy and scan speed of . (c) Image of a cross section of the line structure shown in (b). (d) Images of the transition region without and with crossed polarizers. is the writing velocity, is the wave vector of the writing laser, and is the electric field of the writing laser.

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/content/aip/journal/apl/93/17/10.1063/1.3010375
2008-10-29
2014-04-17

Abstract

Control of structural modifications inside silicaglass by changing the front tilt of an ultrashort pulse is demonstrated, achieving a calligraphic style of laser writing. The phenomena of anisotropicbubble formation at the boundary of an irradiated region and modification transition from microscopic bubbles formation to self-assembledform birefringence are observed, and the physical mechanisms are discussed. The results provide the comprehensive evidence that the light beam with centrosymmetric intensity distribution can produce noncentrosymmetric material modifications.

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Scitation: Ultrashort-pulse laser calligraphy
http://aip.metastore.ingenta.com/content/aip/journal/apl/93/17/10.1063/1.3010375
10.1063/1.3010375
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