Investigation of Elastic Energy on Single Crystal GaN Nanobeams with Different Span

This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of c...

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Published in	International Journal of Photoenergy Vol. 2014; no. 2014; pp. 1 - 6
Main Authors	Hung, Shang-Chao, Hsu, Yi-Cheng, Yang, Cheng-Fu
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Publishing Corporation 01.01.2014 John Wiley & Sons, Inc Hindawi Limited Wiley
Subjects	Clamping Colleges & universities Deformation Elastic deformation Elasticity Gallium compounds Gallium nitrides Ion beams Load Mathematical analysis Mechanical properties Microelectromechanical systems Nanomaterials Nanoparticles Nanostructure Organic chemicals Production processes Single crystals Stores Strain energy methods
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Abstract	This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of clamped freestanding GaN nanobeams with different spans. In the bending process, displacement, D , corresponding to load, P is strongly dependent on the span of nanobeam at the same penetration depth and a distinct linearity is observed. Young’s moduli E of the GaN in this study are calculated as 171.3 GPa ±5.4% and 264.2 GPa ±4.7% by strain energy methods, respectively, for the longer and shorter spans of nanobeams, serving as a simple supporting beam of elastic material under small deformation. The result shows that, even under small deformation, the rigidity enhancement helps the shorter nanobeam store more elastic energy.
AbstractList	This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of clamped freestanding GaN nanobeams with different spans. In the bending process, displacement, D , corresponding to load, P is strongly dependent on the span of nanobeam at the same penetration depth and a distinct linearity is observed. Young's moduli E of the GaN in this study are calculated as 171.3 GPa plus or minus 5.4% and 264.2 GPa plus or minus 4.7% by strain energy methods, respectively, for the longer and shorter spans of nanobeams, serving as a simple supporting beam of elastic material under small deformation. The result shows that, even under small deformation, the rigidity enhancement helps the shorter nanobeam store more elastic energy. This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of clamped freestanding GaN nanobeams with different spans. In the bending process, displacement, D , corresponding to load, P is strongly dependent on the span of nanobeam at the same penetration depth and a distinct linearity is observed. Young’s moduli E of the GaN in this study are calculated as 171.3 GPa ±5.4% and 264.2 GPa ±4.7% by strain energy methods, respectively, for the longer and shorter spans of nanobeams, serving as a simple supporting beam of elastic material under small deformation. The result shows that, even under small deformation, the rigidity enhancement helps the shorter nanobeam store more elastic energy. This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of clamped freestanding GaN nanobeams with different spans. In the bending process, displacement, D, corresponding to load, P is strongly dependent on the span of nanobeam at the same penetration depth and a distinct linearity is observed. Young's moduli E of the GaN in this study are calculated as 171.3 GPa ±5.4% and 264.2 GPa ± 4.7% by strain energy methods, respectively, for the longer and shorter spans of nanobeams, serving as a simple supporting beam of elastic material under small deformation. The result shows that, even under small deformation, the rigidity enhancement helps the shorter nanobeam store more elastic energy. This research presents a novel technique which can more efficiently fabricate different spans of nanobeams on the same substrate. It requires less time to prepare specimen and further shortens the process of aligning, clamping, and testing. Also, we probe into the elastic deformation properties of clamped freestanding GaN nanobeams with different spans. In the bending process, displacement, D , corresponding to load, P is strongly dependent on the span of nanobeam at the same penetration depth and a distinct linearity is observed. Young’s moduli E of the GaN in this study are calculated as 171.3 GPa ±5.4% and 264.2 GPa ±4.7% by strain energy methods, respectively, for the longer and shorter spans of nanobeams, serving as a simple supporting beam of elastic material under small deformation. The result shows that, even under small deformation, the rigidity enhancement helps the shorter nanobeam store more elastic energy.
Audience	Academic
Author	Yang, Cheng-Fu Hsu, Yi-Cheng Hung, Shang-Chao
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Copyright	Copyright © 2014 Shang-Chao Hung et al. COPYRIGHT 2014 John Wiley & Sons, Inc. Copyright © 2014 Shang-Chao Hung et al. Shang-Chao Hung et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright_xml	– notice: Copyright © 2014 Shang-Chao Hung et al. – notice: COPYRIGHT 2014 John Wiley & Sons, Inc. – notice: Copyright © 2014 Shang-Chao Hung et al. Shang-Chao Hung et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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SubjectTerms	Clamping Colleges & universities Deformation Elastic deformation Elasticity Gallium compounds Gallium nitrides Ion beams Load Mathematical analysis Mechanical properties Microelectromechanical systems Nanomaterials Nanoparticles Nanostructure Organic chemicals Production processes Single crystals Stores Strain energy methods
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Title	Investigation of Elastic Energy on Single Crystal GaN Nanobeams with Different Span
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