The conclusion that metamaterials could have negative mass is a consequence of improper constitutive characterisation

David Cichra, Vít Průša, K. R. Rajagopal, Casey Rodriguez, Martin Vejvoda
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Abstract

The concept of "effective mass" is frequently used for the simplification of complex lumped parameter systems (discrete dynamical systems) as well as materials that have complicated microstructural features. From the perspective of wave propagation, it is claimed that for some bodies described as metamaterials, the corresponding "effective mass" can be frequency dependent, negative or it may not even be a scalar quantity. The procedure has even led some authors to suggest that Newton's second law needs to be modified within the context of classical continuum mechanics. Such absurd physical conclusions are a consequence of appealing to the notion of "effective mass" with a preconception for the constitutive structure of the metamaterial and using a correct mathematical procedure. We show that such unreasonable physical conclusions would not arise if we were to use the appropriate "effective constitutive relation" for the metamaterial, rather than use the concept of "effective mass" with an incorrect predetermined constitutive relation.
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超材料可能具有负质量的结论是不恰当的构成特征描述的结果
有效质量 "的概念常用于简化复杂的整块参数系统(离散动力系统)以及具有复杂微观结构特征的材料。从波传播的角度来看,对于某些被描述为超材料的物体,相应的 "有效质量 "可能与频率有关,也可能是负值,甚至可能不是标量。有些学者甚至认为,牛顿第二定律需要在经典连续介质力学中加以修正。这种荒谬的物理结论是在对超材料的构成结构缺乏正确理解的情况下诉诸 "有效质量 "概念并使用正确数学方法的结果。我们证明,如果我们对超材料使用适当的 "有效构成关系",而不是使用带有不正确的预定构成关系的 "有效质量 "概念,就不会出现这种不合理的物理结论。
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