本项目研究暗物质理论、唯象和未来的实验检验: 系统研究能满足直接探测实验如 LUX、PandaX 和 XENON1T 等实验限制的暗物质模型如同位旋破坏的暗物质模型，并讨论其唯象检验，特别是 LHC 和未来对撞机等实验检验；系统研究能解释各种暗物质间接探测实验观测到的宇宙线中正电子超出等现象的暗物质模型及其唯象，并解决共振暗物质模型的精细调节问题；系统研究超对称标准模型中各种暗物质粒子候选者及其对撞机等实验检验；系统研究暗物质粒子和暴胀子的统一并解决其重加热问题；系统研究 Axion 暗物质模型构造和唯象，以及大统一磁单极子对Axion 物理的影响；系统研究探测暗物质的新实验方法；系统研究正反不对称的暗物质模型，并讨论其唯象检验；系统构造多组分暗物质模型，特别是超对称多组分暗物质模型,并研究其唯象检验；系统研究宇宙线模型和暗物质的间接探测；系统研究原初黑洞暗物质,和原初黑洞的宇宙学产生等。

This research proposal studies the dark matter theories and phenomenologies, as well as experimental tests: systematically study the dark matter models such as isospin violation dark matter models, which can satisfy the constraints from the direct detection experiments, for example, the LUX, PandaX,and XENON1T experiments, etc., and discuss their experimental tests, especially the tests by the LHC and future collider experiments, etc. Systematically study various dark matter models which can explain the positron excesses etc. observed by the dark matter indirect detection experiments, discuss their phenomenological consequences, and solve the fine-tuning problem in the resonant dark matter models. In the supersymmetric Standard Models, systematically study various dark matter particle candidates and their tests by the collider experiments, etc. Systematically study the unification of the dark matter particle and inflaton, and solve the reheating problem. Systematically study the axion model building and phenomenology, as well as the effect on axion physics from the Grand Unified Theory monopoles. Systematically study the new methods to probe dark matter. Systematically study the asymmetric dark matter models, and discuss their phenomenological tests. Systematically study the multi-component dark matter models, and discuss their phenomenological tests. Systematically study the cosmic ray models and discuss the dark matter indirect detections. Systematically study the primordial black hole dark matter, and the cosmological productions of the primordial black holes, etc.