In order to reasonably explain the phenomenon of cell bioelectricity, we proposed the conservation law of cell membrane area, established the ion inequality equation, and therefore paid attention to the mystery of “θ-τ”. We researched and analyzed the “θ-τ” mystery, discussed the parity non-conservation in weak interactions, suggested possible experiments to test the parity non-conservation in weak interactions, and gave our research and analysis conclusions: The parity non-conservation in weak interactions, is still a “conjecture”; The experimental scheme suggested in the papers by C. N. Yang et al. cannot determine whether the weak interaction can separate left and right, and it is impossible to directly answer whether θ and τ in the “θ-τ” mystery are the same particle; The Co60 β decay experiment such as C. S. Wu is a pseudo-mirror experiment, whether the experimental result violates parity conservation is only based on the assumption of C. N. Yang et al. In fact, experiments such as polarized Co60 did not overturn the so-called “law of parity conservation”. The mirror image principle does not have any physical meaning, does not correspond to any physical conservation quantity, and cannot be destroyed by any physical experiment. In the process of turning “mirror symmetry” and “mirror asymmetry” into so-called physical “common sense” and scientific “facts” respectively, the methods of transformation are “stealing concepts” and “circular argumentation”. The “θ-τ” mystery is a “man-made” mystery. θ and τ are two different particles, which may be the result of the same precursor particle being divided into two. The work of C. N. Yang, T. D. Lee, C. S. Wu et al. has brought quantum physicists from the “small black room” to the “bigger black room” or “smaller black room”. The right and wise choice is to go back through the door that came in. With the development of science today, it is time for some contents to reform from the bottom.

目的 探讨经颅磁电刺激(TMES)疗法对海仁酸(KA)致颞叶癫痫鼠的疗效。 方法 62只大鼠按照随机数字表法分为预处理组(共32只)和治疗组(共30只)，预处理组再分为4个小组，分别给予治疗仪最大电流强度(MCI) 0%，25%，50%，75%的电流刺激，确定本实验条件下的最佳刺激参数。治疗组再分为3个小组，每组10只。2组(癫痫刺激组、癫痫非刺激组)为符合纳入标准的癫痫模型大鼠，刺激组刺激参数为预处理组确定出的最佳刺激参数；非刺激组大鼠刺激前后处理与刺激组相同，但治疗仪无有效的能量输出。第3组对照组为未造模对照大鼠。3组大鼠均给予每天1次，40 min/次，共14 d的刺激。记录并比较3组大鼠行为学、电生理学及组织学变化，以评估TMES疗法对癫痫大鼠的疗效。 结果 50%MCI为最佳刺激强度。癫痫刺激组大鼠癫痫波出现的频率明显低于癫痫非刺激组大鼠[(30.210 ±4.580)次/min vs. (31.380 ± 4.247)次/min]，差异有统计学意义(t=3.235，P=0.001)。Timm染色结果提示3组大鼠染色评分差异有统计学意义(F=17.429, P=0.000)，癫痫刺激组大鼠海马齿状回的内分子层Timm染色评分较癫痫非刺激组明显减轻，差异有统计学意义(P＜0.05)。结论 TMES疗法可通过改善癫痫大鼠海马齿状回内分子层组织学变化程度来影响齿状回神经元环路的形成，进而降低癫痫脑电波的发作频率。

This is a new idea that based on effective treatment of Parkinson's disease and Alzheimer's disease with transcranial magnetoelectric stimulation technology, it can understand a hypothesis about voltage-gated Ca2+ channels is the best target for activation by physical means, basic content：Parkinson's disease , Alzheimer's disease etc. neuronal degeneration diseases, that closely related to physical-gated ion channels, which can be treated with physical means, activating neurotransmitters-energic neurons plays key roles in the treatment, and voltage-gated Ca2+ channels is the best target for physical means, the purpose is to induce Ca2+ inflowing and triggers neuronal axon terminals synaptic vesicles releasing neurotransmitters. The theory of brain cell activation sets forth the principle, method and purpose of treatment of the physical gated ion channel diseases such as Alzheimer's disease, Parkinson's disease and other neural degeneration diseases, and indicates that the attempt to treat these diseases using pharmaceutical and chemical approaches could shake our confidence in conquering the diseases, and the application of physical approaches or combined application of physical and chemical approaches in the treatment of some major encephalopathy may be our main research direction in the future.

[Objective] Verification and application of the theory of brain cell activation. [Methods] Applying Transcranial magnetoelectric encephalopathy treatment instrument to the treatment of Neurodegenerative disease. including but not limited to: Parkinson's disease and Alzheimer's disease. [Results] Transcranial magnetoelectric encephalopathy treatment instrument，its double - center, randomized, double - blind clinical trial has been carried out at the national clinical trial base，it proves that the instrument is safe and effective. This instrument is especially suitable for the treatment of the following diseases: 1. It is suitable for the treatment of mild to moderate Parkinson's disease and can significantly improve resting tremor, rigidity, bradykinesia in patients with Parkinson’s disease and other symptoms. 2. It is suitable for the treatment of mild and moderate Alzheimer's disease and vascular dementia and can improve the mental state, cognitive behavior and self-care ability of daily life. 3. It is suitable for the treatment of mild to moderate depression and can obviously improve the main symptoms of depression, sleep disorder, anxiety and so on. 4. It is suitable for the treatment of cerebral apoplexy sequelae, cerebrovascular dementia and brain atrophy, it can activate the brain cells in the state of inhibition and mobilize the potential energy of the brain. [Conclusions] The theory of brain cell activation，It is applicable to encephalopathy and not limited to encephalopathy,according to this theory, the subject of "physical disease science" can be created.

The study of the action potential of cardiomyocytes is as important as the study of nerve fiber cells. The theoretical basis of the action potential of cardiomyocytes is the ionic theory formed by nerve fiber cells. Its core point of view: the decline phase of the action potential of cells is dominated by K+ outflow. Applying the principle of the K+ channel “origami windmill” model, the mechanism of action potential generation of nerve fiber cells has been reasonably explained, and a point contrary to the ion theory has been drawn: the phase of the action potential decline is dominated by K+ influx. Similarly, applying the principle of the K+ channel “origami windmill” model can also give a reasonable explanation for the mechanism of action potential generation of cardiomyocytes. The difference between cardiomyocyte action potential and nerve fiber cell: In addition to K+, Cl-, Na+, the process of generating cardiomyocyte action potential also involves the participation of Ca2+. Ca2+ inflow in the rising phase will shorten the depolarization time; Ca2+ inflow in the falling phase will prolong the repolarization time. K+, Ca2+ space substitution proportion: rotate into 2 K+, squeeze out 3 Ca2+, and 4 extra negative charges in the cell, the proportion is 2: 3: 4; Conversely, squeeze out 2 K+, rotate into 3 Ca2+, 4 extra positive charges the cells, the proportion is 3: 2: 4. Na+, Ca2+ space substitution proportion: rotate into 1 Na+, squeeze out 1 Ca2+, and 1 extra negative charges in the cell, the proportion is 1: 1:1; Conversely, rotate into 1 Ca2+, squeeze out 1 Na+, there is 1 more positive charge in the cell, and the proportion is 1: 1: 1. Application of “origami windmill” model principle, can reasonably explain the cardiomyocytes action potential generation mechanism, further proveding “origami windmill” the model theory, “the theory of dove-like particles”“the theory of braincell activation” of science.