Abstract

It is urgent to use a “warm liquid” TMS in large massive calorimeters (with a volume of several hundred liters). This direction in modern nuclear physics is referred to as “non-accelerator” experiments with low-background detectors. Such experiments are associated with the solution of most important problems to understand the Universe structure and search for new particles. These are the well-known problems for searching “dark matter” in the form of new weakly interacting particles, i.e., wimps, observations of coherent scattering of reactor neutrinos. Using this experiment, the standard model of electroweak interactions can be tested. The fully developed fabrication technology of large amounts of “warm liquid” ТМS (in collaboration with the State Research Institute of Chemistry and Technology of Organoelement Compounds) makes it possible to perform such experiments.

中文翻译：

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液态四甲基硅烷（TMS）探测器的电子电路的工作特性

摘要

迫切需要在大型量热仪（容量为几百升）中使用“温液” TMS。现代核物理的这一方向被称为使用低背景探测器的“非加速器”实验。这样的实验与解决最重要问题的方法有关，以了解宇宙结构并寻找新的粒子。这些是寻找新的弱相互作用粒子形式的“暗物质”的众所周知的问题，即，弱，观察到反应堆中微子的相干散射。使用该实验，可以测试电弱相互作用的标准模型。