洛伦兹IIB型矩阵模型中(3+1)D扩展时空出现的新视角

J. Nishimura
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引用次数: 10

摘要

IIB型矩阵模型是超弦理论非微扰表述的一个有希望的候选者。特别是在洛伦兹版本中,(3+1)D扩展时空的出现是通过对该模型的蒙特卡罗研究观察到的。在这里,我们提供了从最近的研究中产生的(3+1)D扩展时空的新视角。首先,仿真生成的矩阵构型是奇异的,表示扩展的三维空间的子矩阵只有两个与泡利矩阵相关的大特征值。这个问题是由于在模拟模型时为了避免符号问题而采用的近似而推测出来的。为了证实这一猜想,采用复朗之万方法来克服符号问题,而不是使用近似。结果确实显示出明显偏离泡利矩阵结构,而(3+1)D扩展行为保持不变。我们还发现,在一定范围内得到的经典解具有光滑时空结构,具有相当普遍的(3+1)D扩展行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New perspectives on the emergence of (3+1)D expanding space-time in the Lorentzian type IIB matrix model
The type IIB matrix model is a promising candidate for a nonperturbative formulation of superstring theory. In the Lorentzian version, in particular, the emergence of (3+1)D expanding space-time was observed by Monte Carlo studies of this model. Here we provide new perspectives on the (3+1)D expanding space-time that have arised from recent studies. First it was found that the matrix configurations generated by the simulation are singular in that the submatrices representing the expanding 3D space have only two large eigenvalues associated with the Pauli matrices. This problem was conjectured to occur due to the approximation used to avoid the sign problem in simulating the model. In order to confirm this conjecture, the complex Langevin method was applied to overcome the sign problem instead of using the approximation. The results indeed showed a clear departure from the Pauli-matrix structure, while the (3+1)D expanding behavior remained unaltered. It was also found that classical solutions obtained within a certain ansatz show quite generically a (3+1)D expanding behavior with smooth space-time structure.
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