昆特管实验和自发对称跃迁的规范理论研究

T. Kambe
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引用次数: 0

摘要

在昆特的闭管声共振实验中,观察到两个特征长度:一个是共振声波的波长,另一个是尘埃条纹的尺度。后者的形成机制尚未得到解决。基于作者最近提出的流体测量理论,对粉尘条纹的形成机理进行了研究。当声音足够微弱时,条纹是不可见的。一旦波强度超过阈值,就会形成粉尘条纹。尘埃条纹的形成可以理解为声学中对称性的自发转变。根据该理论,流体流动中存在应力场的过渡。转变前应力场为各向同性,转变后应力场为各向异性。这类似于场论中已知的自发对称性破缺。验证了两个系统的拉格朗日结构是相似的。
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Gauge-Theoretic Study of Kundt Tube Experiment and Spontaneous Symmetry Transitions
In the Kundt’s experiment of acoustic resonance in closed tubes, two characteristic lengths were observed: one is the wave-length of the sound waves in resonance and the other the scale of dust striation. The latter has remained unresolved for its formation mechanism. Based on the Fluid Gauge Theory proposed recently by the author, formation mechanism of the dust striation is studied. When the sound is weak enough, the striation is unobserved. Once the wave intensity exceeds a threshold value, dust striations are formed. Formation of the dust striation is understood as a spontaneous transition of symmetry in the acoustics. According to the Theory, there is a transition of stress field within the fluid flow. Whereas the stress field is isotropic before transition, it becomes anisotropic after the transition. This is analogous to the spontaneous symmetry breaking known in the field theory. Lagrangian structures of both systems are verified to be analogous either.
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