- About the Cu-related green luminescence band in ZnO
[作者:Reshchikov, MA; Avrutin, V; Izyumskaya, N; Shimada, R; Morkoc, H; Novak, SW,期刊:Journal Of Vacuum Science & Technology B, 页码:1749-1754 , 文章类型: Conference,,卷期:2009年27-3]
- Cu-related green luminescence (GL) band in n-type ZnO layers grown by molecular beam epitaxy on sapphire and a bulk ZnO sample grown by hydrothermal method have been studied with above-bandgap excitation. Annealing of th...
- Topography of epitaxial GaAs surfaces for growth
[作者:Lehman, SY; Roshko, A; Mirin, RP; Bertness, KA; Harvey, TE; Cobry, KD,期刊:Journal Of Vacuum Science & Technology B, 页码:1072-1079 , 文章类型: Article,,卷期:2009年27-3]
- The topography and surface roughness of (100) GaAs substrates and buffers after different preparation procedures were determined from atomic force microscopy (AFM) measurements. In order to characterize the topography ov...
- Realization of nanosecond pulse laser micromachining system
[作者:Liu, CY; Fu, X; Wu, Y; Li, Y; Sun, FM; Hu, XT,期刊:Journal Of Vacuum Science & Technology B, 页码:1319-1322 , 文章类型: Conference,,卷期:2009年27-3]
- In this article a new nanosecond pulse laser micromachining system has been designed, which consists of laser, mechanical and optical structure, three-dimensional (3D) work platform, and control system. 355 nm ultraviole...
- Hybrid machining of microstructures using a combination of electrical discharge machining milling and laser ablation
[作者:Weber, P; Haupt, S; Schulze, V,期刊:Journal Of Vacuum Science & Technology B, 页码:1327-1329 , 文章类型: Conference,,卷期:2009年27-3]
- Using laser beam machining with ultrashort laser pulses, microstructures in the micrometer region can be manufactured in virtually all materials, regardless of their mechanical properties. However, machining times are sl...
- Three-dimensional molecular dynamics simulation of nanostructure for reciprocating nanomachining process
[作者:Liang, YC; Chen, JX; Chen, MJ; Song, DP; Bai, QS,期刊:Journal Of Vacuum Science & Technology B, 页码:1536-1542 , 文章类型: Conference,,卷期:2009年27-3]
- Three-dimensional molecular dynamics simulations are conducted to investigate the effect of reciprocating nanomachining process on the subsurface damaged layers, surface integrity, cutting force, stress variation of subs...
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