A. Sepehri, A. Pradhan, R. Pinčák, F. Rahaman, A. Beesham, Tooraj Ghaffary
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引用次数: 6
摘要
本文研究了具有Lie- N -代数的M维理论中广义不确定性原理(GUP)的起源。我们将此理论命名为GLNA(Generalized Lie-$N$- algebra)理论,可以简化为$M=11$和$N=3$的$M$-理论。在这个理论中,一开始,两种正负号的能量从无开始,产生了两种量子数相反、时间维数不同的膜。随着这些膜的诞生,玻色子场的各种衍生物在系统的作用下出现,产生了玻色子的r GUP。这些膜相互作用,在系统的作用下出现了紧致和各种派生的旋量场,导致了费米子GUP的产生。由于出现了更高阶的导数和不同数量的时间维,对GUP中先前预测的膜熵进行了修正。
Birth of the GUP and its effect on the entropy of the Universe in Lie-$N$-algebra
In this paper, the origin of the generalized uncertainty principle (GUP) in an $M$-dimensional theory with Lie-$N$-algebra is considered. This theory which we name GLNA(Generalized Lie-$N$-Algebra)-theory can be reduced to $M$-theory with $M=11$ and $N=3$. In this theory, at the beginning, two energies with positive and negative signs are created from nothing and produce two types of branes with opposite quantum numbers and different numbers of timing dimensions. Coincidence with the birth of these branes, various derivatives of bosonic fields emerge in the action of the system which produce the $r$ GUP for bosons. These branes interact with each other, compact and various derivatives of spinor fields appear in the action of the system which leads to the creation of the GUP for fermions. The previous predicted entropy of branes in the GUP is corrected as due to the emergence of higher orders of derivatives and different number of timing dimensions.
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