Recent advances in ultrafast laser micromachining of transparent materials
Recent advances in ultrafast laser micromachining of transparent materials
Modification of transparent materials with ultrafast lasers has attracted considerable interest due to a wide range of applications including laser surgery, integrated optics, optical data storage, 3D micro- and nanostructuring [1]. Three different types of material modifications can be induced with ultrafast laser irradiation in the bulk of a transparent material, silica glass in particular: an isotropic refractive index change (type 1); a form birefringence associated with self-assembled nanogratings and negative refractive index change (type 2) [2,3]; and a void (type 3). In fused silica the transition from type 1 to type 2 and finally to type 3 modification is observed with an increase of fluence. Recently, a remarkable phenomenon in ultrafast laser processing of transparent materials has been reported manifesting itself as a change in material modification by reversing the writing direction [4]. The phenomenon has been interpreted in terms of anisotropic plasma heating by a tilted front of the ultrashort laser pulse. Moreover a change in structural modification has been demonstrated in glass by controlling the direction of pulse front tilt, achieving a calligraphic style of laser writing which is similar in appearance to that inked with the bygone quill pen [5]. It has also been a common belief that in a homogeneous medium, the photosensitivity and corresponding light-induced material modifications do not change on the reversal of light propagation direction. More recently it have observed that in a non-centrosymmetric medium, modification of the material can be different when light propagates in opposite directions (KaYaSo effect) [6]. Non-reciprocity is produced by magnetic field (Faraday effect) and movement of the medium with respect to the direction of light propagation: parallel (Sagnac effect) or perpendicular (KaYaSo effect). Moreover a new phenomenon of ultrafast light blade, representing itself the first evidence of anisotropic sensitivity of isotropic medium to femtosecond laser radiation has been recently discovered [7]. We anticipate that the observed phenomena will open new opportunities in laser material processing, laser surgery, optical manipulation and data storage
Kazansky, P.G.
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Yang, W.
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Corbari, C.
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Beresna, Martynas
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Shimotsuma, Y.
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Sakakura, M.
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Miura, K.
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Hirao, K.
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Qiu, J.
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Svirko, Y.P.
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15 June 2009
Kazansky, P.G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c
Yang, W.
8d99a175-3cc8-44bc-99c2-cf431ae9a4ea
Corbari, C.
273904e8-5f90-4110-bc17-3d3f2c27d461
Beresna, Martynas
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Shimotsuma, Y.
87dadd83-161c-47db-b2d5-d9b35426760e
Sakakura, M.
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Miura, K.
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Hirao, K.
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Qiu, J.
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Svirko, Y.P.
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Kazansky, P.G., Yang, W., Corbari, C., Beresna, Martynas, Shimotsuma, Y., Sakakura, M., Miura, K., Hirao, K., Qiu, J. and Svirko, Y.P.
(2009)
Recent advances in ultrafast laser micromachining of transparent materials.
Lasers in Manufacturing, The 19th International Congress on Photonics in Europe, , Munich, Germany.
15 - 18 Jun 2009.
1 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Modification of transparent materials with ultrafast lasers has attracted considerable interest due to a wide range of applications including laser surgery, integrated optics, optical data storage, 3D micro- and nanostructuring [1]. Three different types of material modifications can be induced with ultrafast laser irradiation in the bulk of a transparent material, silica glass in particular: an isotropic refractive index change (type 1); a form birefringence associated with self-assembled nanogratings and negative refractive index change (type 2) [2,3]; and a void (type 3). In fused silica the transition from type 1 to type 2 and finally to type 3 modification is observed with an increase of fluence. Recently, a remarkable phenomenon in ultrafast laser processing of transparent materials has been reported manifesting itself as a change in material modification by reversing the writing direction [4]. The phenomenon has been interpreted in terms of anisotropic plasma heating by a tilted front of the ultrashort laser pulse. Moreover a change in structural modification has been demonstrated in glass by controlling the direction of pulse front tilt, achieving a calligraphic style of laser writing which is similar in appearance to that inked with the bygone quill pen [5]. It has also been a common belief that in a homogeneous medium, the photosensitivity and corresponding light-induced material modifications do not change on the reversal of light propagation direction. More recently it have observed that in a non-centrosymmetric medium, modification of the material can be different when light propagates in opposite directions (KaYaSo effect) [6]. Non-reciprocity is produced by magnetic field (Faraday effect) and movement of the medium with respect to the direction of light propagation: parallel (Sagnac effect) or perpendicular (KaYaSo effect). Moreover a new phenomenon of ultrafast light blade, representing itself the first evidence of anisotropic sensitivity of isotropic medium to femtosecond laser radiation has been recently discovered [7]. We anticipate that the observed phenomena will open new opportunities in laser material processing, laser surgery, optical manipulation and data storage
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Published date: 15 June 2009
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Lasers in Manufacturing, The 19th International Congress on Photonics in Europe, , Munich, Germany, 2009-06-15 - 2009-06-18
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Local EPrints ID: 166879
URI: http://eprints.soton.ac.uk/id/eprint/166879
PURE UUID: f5df7fdf-a777-4642-bd6a-11baf2f9050d
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Date deposited: 04 Nov 2010 11:36
Last modified: 14 Mar 2024 02:14
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Contributors
Author:
W. Yang
Author:
C. Corbari
Author:
Y. Shimotsuma
Author:
M. Sakakura
Author:
K. Miura
Author:
K. Hirao
Author:
J. Qiu
Author:
Y.P. Svirko
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