K. Lassmann and Hp. The thermal conductivity of diamond at low temperatures. •Texture and morphologies of chemical vapor deposited (cvd) diamond. A. van Wyk, 1981. Phonon scattering of point defect aggregates of mg in lif. A. K. McCurdy, H. J. Maris, and C. Elbaum. In J. E. Field, editor, D. T. Morelli. In P. L. Walker and P. A. Thrower, editors. K), which makes the diamond five times better at conducting heat than copper. Such high values of thermal conductivity have attracted attention to the possibility of using diamond for thermal management of electronic devices with high local power levels. Nonmetallic crystals with high thermal conductivity. Thus, the bottleneck for transferring heat away from the device is usually the thermal resistance at the interface between the device and the diamond, a subject which is in need of further research.8 The second category, the fabrication of devices within diamond, is hampered by the lack of a suitable electronic donor and, until recently, by the lack of CVD material of sufficient purity and crystalline perfection to satisfy even approximately the stringent electrical requirements for solid-state electronic materials. Positron annihilation data. Part of Springer Nature. Thermal conductivity of diamond between 170 and 1200k and the isotope effect. Nano-thick Ti-coated diamond reinforced Cu composites aresuccessfully fabricated by hot forging of elemental powder mixture. M. Seal. Thermal conductivity measurement from 30 to 750k: the 3ω method. In J. E. Field, editor. J. P. F. Sellschop. Passive electronic applications. Note on the conduction of heat in crystals. High-precision density determination of natural diamond. P. G. Klemens. R. Mykolajewycz, J. Kalnajs, and A. Smakula. Flash method of determining thermal diffusivity, heat capacity, and thermal conductivity. Vacancy enhanced aggregation of nitrogen in diamond. i. phonon resonances. The purest natural diamond single crystals reported so far 1,2 have a conductivity of 24–25 Wcm-1 K-1 at 300K, compared to 4 for Cu and 1.5 for Si. Thermal conduction in artificial sapphire crystals at low temperatures: I. nearly perfect crystals. Boundary scattering of phonons in fine-grained hot-pressed ge-si alloys: I and ii. Aggregation of nitrogen in diamond. A. Carruthers, T. H. Geballe, H. M. Rosenberg, and J. M. Ziman. High-temperature thermal conductivity of electron-irradiated diamond. “Thermal conductivity of diamond between 170 and 1200 k and the isotope effect,”, T. R. Anthony, W. R. Banholzer, J. J. Fleischer, L. Wei, P. K. Kuo, R. L. Thomas, and R. W. Pryor. G. Davies. J. W. Schwartz and C. T. Walker. solid circle, open square - Type Ia ; x-Type Ib; diamond -Type IIa; + - Type IIb (Burgemeister [1978]). A. Mucha, L. Seibles, and G. W. Kammlott. N. Savvides and H. J. Goldsmid. C. J. Glassbrenner and G. A. Thermal conductivity of cvd diamond: techniques and results. J. Callaway. A. Herb, C. Bailey, K. V. Ravi, and P. A. Dennig. The a nitrogen aggregate in diamond-its symmetry and possible structure. Model for lattice thermal conductivity at low temperatures. V. I. Nepsha, V. R. Grinberg, Yu. Why Is The Variation Of Thermal Conductivity And Diffusivity With Direction Not An Issue In Polycrystalline And Amorphous Materials? The diamond/SiC/Al composites with a large ratio of diamond to SiC particle size (7.8:1) were fabricated. T. R. Anthony, W. F. Banholzer, J. F. Fleischer, L. Wei, P. K. Kuo, R. L. Thomas, and R. W. Pryor. Also, the process of HTHP in producing Cu/diamond composites is much faster than other methods like hot-pressing. Thermal transport properties of n-type ge at low temperatures. The formed chemical bonding, good wettability and strong mechanical interlocking help achieve a excellent flexural properties, and thermal conductivity of 550 W/mK. In P. A. Thrower, editor. Impurities in natural diamond. Chemical vapour deposition of diamond. A. Griffin and P. Carruthers. J. E. Graebner and J. Conclusions. Thermal and optical measurements on vacancies in type iia diamond. B. In J. G. Hust, editor. J. E. Graebner, S. Jin, G. W. Kammlott, J. Thermal conductivity is the ability of the material to transfer heat energy through it from high temperature region to low temperature region. The thermal conductivity of germanium and silicon between 2 and 300k. However, data on the thermal conductivity of intentionally doped diamond is meager at the present time. Download : Download high-res image (380KB)Download : Download full-size image. The thermal advantage of eliminating the interface between the doped, electrically-active regions and the higher-purity regions with higher thermal conductivity is obvious. E. A. Burgemeister. J. E. Graebner. A correlation between the infrared absorption features and the low temperature thermal conductivity of different types of natural diamonds. Scattering of phonons by vacancies. J. H. N. Loubser and J. A. T. Collins. A. T. Collins and A. W. S. Williams. In the production of these components today, diamond is usually the material of choice. Over 10 million scientific documents at your fingertips. Phonon scattering in lightly neutron-irradiated diamond. Ch. The thermal conductivity of chemical-vapor-deposited diamond films on silicon. Diamond has the highest thermal conductivity of any known material at temperatures above ~ 100K. R. Berman. J. C. Angus, A. Argoitia, R. Gat, Z. Li, M. Sunkara, L. Wang, and Y. Wang. H. B. G. Casimir. 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