矿物晶体,由于结构、成分、杂质、结晶程度。成矿温度以及压力等因素的影响,在结晶过程中形成了不同的晶格缺陷,构成了矿物晶体电导的复杂状况。通过对一些天然矿物晶体微波电导率的研究,发现电导大致可以分为两类:一类是与正常掺杂情况下的半导体行为相类似,电导与温度的关系为可逆的过程,即在升温或降温的过程中,同一温度下电导率总是相 Mineral crystals, due to the structure, composition, impurities, degree of crystallization. Mineralization temperature and pressure and other factors, the formation of a different lattice defects in the crystallization process, forming a complex situation of the crystal conductivity of minerals. Through the study of the microwave conductivity of some natural mineral crystals, we find that the conductance can be divided into two categories: one is similar to the behavior of semiconductors in normal doping, the relationship between conductance and temperature is reversible, that is, The cooling process, the same temperature conductivity is always phase