论文部分内容阅读
This paper aims to investigate thermal radiative characteristics of thermochromic material La0.825Sr0.175MnO3(LSMO) with one-dimensional grating structured surfaces. The dielectric function of LSMO was calculated by K-K approach. Numerical calculation was conducted to obtain spectral emittance distribution of such surfaces with different structural parameters using the finite difference time domain (FDTD) method. It was found that the spectral emittance of LSMO structured surface exhibited the feature of selective enhancement due to the excitation of microcavity effect. The effects of structural parameters on spectral emittance indicated that the desired radiative enhancement could be achieved by the rational design of the structural parameters of grating. The temperature dependence of averaged emittance of LSMO was also calculated. The results showed that LSMO with grating structured surface had a better thermochromic performance compared with LSMO with smooth surface.
This dielectric aims to investigate thermal radiative characteristics of thermochromic material La0.825Sr0.175MnO3 (LSMO) with one-dimensional graded structured surfaces. The dielectric function of LSMO was calculated by KK approach. Numerical calculation was conducted to obtain spectral emission distribution of such surfaces with different structural parameters using the finite difference time domain (FDTD) method. It was found that the spectral emittance of LSMO structured surface exhibited the feature of selective enhancement due to the excitation of microcavity effect. The effects of structural parameters on spectral emittance indicated that the result showed that LSMO with grating structured surface had a better thermochromic performance compared with LSMO with smooth surface .