7 Chapter 7Figure 7.1 Error map of the surface figure for the polished laser gain mediu...Figure 7.2 Error map of the surface roughness for the polished laser gain me...Figure 7.3 Image of subsurface damage (SSD) on the surface that cannot be vi...Figure 7.4 Pitch polishing with conventional machine.Figure 7.5 (a) MRF polishing machine. (b) Polishing with MR fluid. Cerium ox...Figure 7.6 80‐in. IAD (ion‐assisted deposition) coating chamber.Figure 7.7 Ion beam generated by 66 cm RF linear ion source.Figure 7.8 Stoney equation.Figure 7.9 Technical problem of diffusion bonding using crystals.Figure 7.10 Fracture surface of YAG‐Yb:YAG crystal composite after laser osc...Figure 7.11 Transmission microphotograph of (a) after diffusion bonding with...Figure 7.12 (a) Forming YAG‐Nd:YAG composite by bonding powder compacts. (b)...Figure 7.13 Various type of ceramic composite and testing results.Figure 7.14 (a) Appearance of YAG/Nd:YAG/YAG ceramic composite formed by DB ...Figure 7.15 (a) Three‐point bending strength of monolithic YAG and Nd:YAG ce...Figure 7.16 Optical properties of ceramic composites in comparison with thei...Figure 7.17 (a)–(c) Observation of scattering for bonding interfaces of YAG/...Figure 7.18 (a) Texture of crack for Nd:YAG single crystal and polycrystalli...Figure 7.19 Principle diagram of single crystal growth by nonmelting process...Figure 7.20 Reflection microscope photograph of Nd:YAG with excess Al2O3 sin...Figure 7.21 Relationship between heating temperature and growth rate of Nd:Y...Figure 7.22 XRD patterns of (a) <110> and <111> seeded YAG samples heated at...Figure 7.23 Comparative data of laser performance concerning 2.4%Nd:YAG poly...Figure 7.24 (a–c) samples show appearance of LGO apatite, BaTiO3 and LSO sin...Figure 7.25 XRD pattern of (a‐2) random orientation polycrystalline, (a‐1) cFigure 7.26 (a) Conventional MALDI system by N2 laser and the advanced micro...Figure 7.27 Results of application of the MALDI/TOF‐MS analyzer using a cera...Figure 7.28 (a) Device configuration of laser igniter. (b) Nd:YAG ceramics a...Figure 7.29 (a) Appearance of conventional spark plug and microlaser spark p...Figure 7.30 System image of space solar pumped solid‐state laser using Nd,Cr...Figure 7.31 Appearance of monolithic ceramic jewel with (a) green and red, (...Figure 7.32 Appearance of composite ceramic jewel with (a) color gradation o...Figure 7.33 Appearance of ceramic jewel with (a) blue spinel ceramics and 10...Figure 7.34 Appearance of ceramic jewel: (a) green + colorless core with com...Figure 7.35 (a) Appearance of ceramic heating element and detail of heating ...Figure 7.36 Machining of small ditch pattern for LED lighting using wireless...Figure 7.37 Difference of focusing distance using conventional glass and hig...Figure 7.38 Appearance of produced 10% Y, 3% Ti:ZrO2 ceramics with refractiv...Figure 7.39 Comparable data of conventional glass (BK7), Y‐stabilized ZrO2 s...Figure 7.40 Comparable data for bending strength and results after impact te...Figure 7.41 (a) Sketch of impact test on test plate by dropping a zirconia b...Figure 7.42 Transparent Al2O3 with 0.5 mm and spinel ceramics with 5 mm thic...Figure 7.43 High‐strength transparent YAG ceramics with 0.3 mm thick produce...Figure 7.44 Optical inspection of polycrystalline spinel ceramics by sinteri...Figure 7.45 (a) He–Ne laser irradiation test and (b‐1) original and (b‐2–4) ...Figure 7.46 In‐line transmittance curves of Spinel Single crystal by Verneui...Figure 7.47 (a) Appearance of large spinel ceramics (left: 60 × 60 × t25 mm,...
Guide
5 Preface
8 Index
9 WILEY END USER LICENSE AGREEMENT
Pages
1 iii
2 iv
3 xi
4 xii