通过中子散射和理论研究UO₂的非谐性和声子寿命及热导率
Phonon lifetime investigation of anharmonicity and thermal conductivity of UO2 by neutron scattering and theory.
作者信息
Pang Judy W L, Buyers William J L, Chernatynskiy Aleksandr, Lumsden Mark D, Larson Bennett C, Phillpot Simon R
机构信息
Oak Ridge National Laboratory, Materials Science and Technology Division, Oak Ridge, Tennessee 37831, USA.
Chalk River Laboratories, National Research Council, Chalk River, Ontario, Canada K0J 1J0.
出版信息
Phys Rev Lett. 2013 Apr 12;110(15):157401. doi: 10.1103/PhysRevLett.110.157401. Epub 2013 Apr 8.
Inelastic neutron scattering measurements of individual phonon lifetimes and dispersion at 295 and 1200 K have been used to probe anharmonicity and thermal conductivity in UO2. They show that longitudinal optic phonon modes carry the largest amount of heat, in contrast to past simulations and that the total conductivity demonstrates a quantitative correspondence between microscopic and macroscopic phonon physics. We have further performed first-principles simulations for UO2 showing semiquantitative agreement with phonon lifetimes at 295 K, but larger anharmonicity than measured at 1200 K.
通过非弹性中子散射测量在295K和1200K下单个声子寿命和色散,以此来探究UO₂中的非谐性和热导率。结果表明,与过去的模拟结果相反,纵向光学声子模式携带的热量最多,并且总电导率表明微观和宏观声子物理之间存在定量对应关系。我们还对UO₂进行了第一性原理模拟,结果显示与295K下的声子寿命有半定量的一致性,但非谐性比在1200K下测量的要大。
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