Abstract Energy storage is one of the major applications of antiferroelectrics due to their large energy releasing density and stronger releasing power. Theoretic researches demonstrate following results. An antiferroelectric state exists above Curie temperature. When temperature is higher than this interim antiferroelectric state, an energy storage peak appears with extremly low discharging current and without irrecoverable energy; when temperature is slightly low than the Curie temperature, a sharp discharging current appears at EFE-AFE; when temperature is much lower than the Curie temperature, a broad discharging current peak (about 40% of the sharp one in height) will appear at certain temperature.

中文翻译：

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反铁电体可恢复能量释放的理论研究

摘要 储能是反铁电体的主要应用之一，其能量释放密度大，释放能力强。理论研究证明了以下结果。居里温度以上存在反铁电态。当温度高于这个临时反铁电态时，会出现一个储能峰值，放电电流极低，没有不可恢复的能量；当温度略低于居里温度时，EFE-AFE处出现急剧的放电电流；当温度远低于居里温度时，在一定温度下会出现一个较宽的放电电流峰值（约为尖峰的40%）。