Abstract

Particles of vacuum make it possible to determine the properties of elementary particles, but there is still a lot of work to develop the properties of particles of vacuum. The development of quantum electrodynamics and the standard model goes back 100 years. Meanwhile, the description of a lower level of masses and energies is 10 years old, and that is through the efforts of one person. When calculating the mass of elementary particles and their magnetic moment, linear formulas are used, which reduces the accuracy of the calculation. One must think about nonlinear corrections.

Highlights

  • Particles of vacuum make it possible to determine the properties of elementary particles, but there is still a lot of work to develop the properties of particles of vacuum

  • When calculating the mass of elementary particles and their magnetic moment, linear formulas are used, which reduces the accuracy of the calculation

  • А так как я стремлюсь получить значение массы элементарных частиц, пока с некоторой натяжкой с точностью 0.5%, то возможно по квантовым числам определение магнитного момента элементарных частиц

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Summary

Introduction

Particles of vacuum make it possible to determine the properties of elementary particles, but there is still a lot of work to develop the properties of particles of vacuum. При вычислении массы элементарных частиц и их магнитного момента используются линейные формулы, что снижает точность вычисления. The development of quantum electrodynamics and the standard model goes back 100 years. The description of a lower level of masses and energies is 10 years old, and that is through the efforts of one person. Ключевые слова: свойства элементарных частиц, магнитный момент элементарных частиц, частицы вакуума

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Conclusion

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