ICCA2020:P000103

A generalization of the Yang–Mills equations

*Nikolay Marchuk (Steklov Mathematical Institute)

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{%Title
A generalization of the Yang–Mills equations
}
{% Name
Nikolay Marchuk
}
{% Email Address
nmarchuk@mi-ras.ru, nmarchuk2005@yandex.ru
}
{% Address, NO LINE BREAKS
Departament of Mathematical Physics, Gubkina str.8, Moscow 119991, Russia
}
{% Abstract
% NOT TO EXCEED 300 WORDS
A generalization of the Yang–Mills equations is proposed. It is shown that any
solution of the Yang–Mills equations (in the Lorentz gauge) is also a solution of the new generalized equation.
It is also shown that the generalized equation has solutions that do not satisfy
the Yang–Mills equations.
}
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%% ABSTRACT template %% 12th ICCA, Hefei, PRC \documentclass[9pt]{amsart} % \usepackage{amsfonts,amsthm,amssymb,amsmath} \usepackage[scale={0.8,0.9}, a4paper, nofoot, bindingoffset=1cm]{geometry} \parindent0mm \parskip0mm \sloppy % \newtheorem*{theorem}{Theorem} % \newcommand{\ICCAabstract}[5]{{\bf #1}\par\medskip{\sc #2}\\{#4}\\{\tt #3} \par\bigskip {#5}\bigskip\bigskip} % \begin{document} \begin{twocolumn} % % Please do not change ANYTHING outside the following latex command and do NOT use % any hard font commands inside the command options (as \bf, \sf, \large etc.) except \empf{} if % you want to emphasise something. Please do not use labels and reference to formula numbers % in your abstract (as this will cause problems in the production process). You may use the % \begin{theorem} \end{theorem} environment to state theorems, use all font commands and % symbols provided by {amsfonts} and {amssymb} packages INSIDE formulae. % Please do NOT give references in or after your abstract. % % If your abstract exceeds 300 words in length, we will cut it after 300 words and replace % the remainder by \dots % \ICCAabstract% {%Title A generalization of the Yang–Mills equations } {% Name Nikolay Marchuk } {% Email Address nmarchuk@mi-ras.ru, nmarchuk2005@yandex.ru } {% Address, NO LINE BREAKS Departament of Mathematical Physics, Gubkina str.8, Moscow 119991, Russia } {% Abstract % NOT TO EXCEED 300 WORDS A generalization of the Yang–Mills equations is proposed. It is shown that any solution of the Yang–Mills equations (in the Lorentz gauge) is also a solution of the new generalized equation. It is also shown that the generalized equation has solutions that do not satisfy the Yang–Mills equations. } % \end{twocolumn} \end{document}

The 12th International Conference on Clifford Algebras and Their Applications in Mathematical Physics

A generalization of the Yang–Mills equations