This paper uses finite element method to obtain the three-dimensional temperature field of laser-induced transient thermal grating (TTG) for two-layered structure of diamond film on ZnSe substrate. The numerical res...This paper uses finite element method to obtain the three-dimensional temperature field of laser-induced transient thermal grating (TTG) for two-layered structure of diamond film on ZnSe substrate. The numerical results indicate that unique two-times heating process is gradually experienced in the area between two adjacent grating stripes. However, there is a little change for the temperature field along the depth direction for the diamond film due to its great thermal conductivity. It further finds that the thickness of the diamond film has a significant influence on the temperature field in diamond/ZnSe system. The results are useful for the application of laser-induced TTG technique in film/substrate system.展开更多
Thermal diffusivity has been investigated in a manganite thin film La0.6Sr0.4MnO3 by means of transient grating (TG) technique at room temperature. A new method, which is generalized to two-layered samples of the th...Thermal diffusivity has been investigated in a manganite thin film La0.6Sr0.4MnO3 by means of transient grating (TG) technique at room temperature. A new method, which is generalized to two-layered samples of the thin film deposited on a semi-infinite substrate, is established to fit the TG signals. The thermal diffusivity of the Lao.6Sro.4MnO3 thin film with a thickness of 200nm on an MgO (100) substrate is determined to be 0.92mm^2/s, which is slightly smaller than that of the single crystal sample (1 mm^2/s).展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos 10374041 and 10574071)
文摘This paper uses finite element method to obtain the three-dimensional temperature field of laser-induced transient thermal grating (TTG) for two-layered structure of diamond film on ZnSe substrate. The numerical results indicate that unique two-times heating process is gradually experienced in the area between two adjacent grating stripes. However, there is a little change for the temperature field along the depth direction for the diamond film due to its great thermal conductivity. It further finds that the thickness of the diamond film has a significant influence on the temperature field in diamond/ZnSe system. The results are useful for the application of laser-induced TTG technique in film/substrate system.
基金Supported by the National Natural Science Foundation of China under Grant No 10374041, the Program for New Century Excellent Talents in Universities from the Ministry of Education of China under Grant No NECT-04-0456.
文摘Thermal diffusivity has been investigated in a manganite thin film La0.6Sr0.4MnO3 by means of transient grating (TG) technique at room temperature. A new method, which is generalized to two-layered samples of the thin film deposited on a semi-infinite substrate, is established to fit the TG signals. The thermal diffusivity of the Lao.6Sro.4MnO3 thin film with a thickness of 200nm on an MgO (100) substrate is determined to be 0.92mm^2/s, which is slightly smaller than that of the single crystal sample (1 mm^2/s).
