Property study of phase change materials for nanopatterning
Metallic glass, Al-Ni-Gd, was explored for its potential as a phase change thermal absorption medium for application in ultra-high density read only memory (ROM) storage disk mastering process. Thermal analysis showed that Al-Ni-Gd film has high activation energy. Optical analysis confirmed the mate...
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sg-ntu-dr.10356-208392023-03-04T15:41:22Z Property study of phase change materials for nanopatterning Tan, Donny Wei Yi. Gan Chee Lip School of Materials Science and Engineering A*STAR Data Storage Institute DRNTU::Engineering::Materials Metallic glass, Al-Ni-Gd, was explored for its potential as a phase change thermal absorption medium for application in ultra-high density read only memory (ROM) storage disk mastering process. Thermal analysis showed that Al-Ni-Gd film has high activation energy. Optical analysis confirmed the material undergoes phase change transition from amorphous when as-deposited to crystalline state after annealed, making it a suitable material as the phase change thermal absorption layer in this study. A specially designed laser thermal lithography (LTL) structure combining with the proposed LTL technique was used to study the fabrication of nano-dots on the dependence on incident laser peak power, laser pulse width and phase change thickness. Al-Ni-Gd was used as the phase change layer in the LTL structure which performed as a thermal absorption material. By using a focused beam (blue laser of wavelength 405 nm) with numerical aperture of 0.9, a Gaussian distribution of light intensity produced an effective hot spot when absorbed by the Al-Ni-Gd phase change layer. The hot area induced thermal cross-linking reaction to the top active dielectric layer, with the result that nano-dots were fabricated after etching. In this project, nano-dots of 200 nm dimensions were successfully fabricated using the proposed LTL technique, which was very close to the diffraction limit of 225 nm given by the optical set-up. We found that the size and height of the nano-dots increased with increasing laser pulse width and power. However, with increasing phase change layer thickness, both size and height of nano-dots were observed to decrease. With the results, LTL technique has demonstrated to have the potential as a simple and low-cost lithography technique for application in optical disk mastering process. Bachelor of Engineering (Materials Engineering) 2010-01-18T08:31:24Z 2010-01-18T08:31:24Z 2009 2009 Final Year Project (FYP) http://hdl.handle.net/10356/20839 en Nanyang Technological University 59 p. application/pdf |
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DRNTU::Engineering::Materials Tan, Donny Wei Yi. Property study of phase change materials for nanopatterning |
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Metallic glass, Al-Ni-Gd, was explored for its potential as a phase change thermal absorption medium for application in ultra-high density read only memory (ROM) storage disk mastering process. Thermal analysis showed that Al-Ni-Gd film has high activation energy. Optical analysis confirmed the material undergoes phase change transition from amorphous when as-deposited to crystalline state after annealed, making it a suitable material as the phase change thermal absorption layer in this study. A specially designed laser thermal lithography (LTL) structure combining with the proposed LTL technique was used to study the fabrication of nano-dots on the dependence on incident laser peak power, laser pulse width and phase change thickness. Al-Ni-Gd was used as the phase change layer in the LTL structure which performed as a thermal absorption material. By using a focused beam (blue laser of wavelength 405 nm) with numerical aperture of 0.9, a Gaussian distribution of light intensity produced an effective hot spot when absorbed by the Al-Ni-Gd phase change layer. The hot area induced thermal cross-linking reaction to the top active dielectric layer, with the result that nano-dots were fabricated after etching. In this project, nano-dots of 200 nm dimensions were successfully fabricated using the proposed LTL technique, which was very close to the diffraction limit of 225 nm given by the optical set-up. We found that the size and height of the nano-dots increased with increasing laser pulse width and power. However, with increasing phase change layer thickness, both size and height of nano-dots were observed to decrease. With the results, LTL technique has demonstrated to have the potential as a simple and low-cost lithography technique for application in optical disk mastering process. |
| author2 |
Gan Chee Lip |
| author_facet |
Gan Chee Lip Tan, Donny Wei Yi. |
| format |
Final Year Project |
| author |
Tan, Donny Wei Yi. |
| author_sort |
Tan, Donny Wei Yi. |
| title |
Property study of phase change materials for nanopatterning |
| title_short |
Property study of phase change materials for nanopatterning |
| title_full |
Property study of phase change materials for nanopatterning |
| title_fullStr |
Property study of phase change materials for nanopatterning |
| title_full_unstemmed |
Property study of phase change materials for nanopatterning |
| title_sort |
property study of phase change materials for nanopatterning |
| publishDate |
2010 |
| url |
http://hdl.handle.net/10356/20839 |
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1759857574766706688 |