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中文摘要:
基于弥聚子论对万有引力定律进行了拓展,提出了包含引力作用和斥力作用、普适于微观、介观和宏观领域的全宇观万有作用力假说,建立了全宇观万有作用力公式.其基本依据是:当实物体的弥聚宗量Bm从0变至∞时,由全宇观量子化变量hB表征的实物体的波动性从最大(hB=h)降至最小(hB=h△),而其粒子性则相应地从最小升至最大.其要点包括:①当一对实物体的粒子性一起达到其共同的上限时,万有引力定律对于这对实物体严格地成立;②在一般情况下,一对实物体之间万有作用力的性质(引力或斥力)与它们各自的全宇观量子化变量hB1、hB2以及彼此之间的距离r相关;③存在一个与上述实物体各自的波函数空间延伸线度S1和S2(分别由hB1和hB2决定)相关的临界距离rc,万有作用力的性质在r=rc时发生逆转:r〉rc时表现为引力,r〈rc时表现为斥力.此假说的正确性有待实验检验,但一经证实,其意义或许是不容忽略的.它有可能在固体物理学相关物理机制的诠释方面起到某种作用,甚至还有可能为广义相对论的进一步发展提供线索.
英文摘要:
Based on the bivergentum theory,the law of universal gravitation is extended to the hypothesis of full-cosmic-scope( FCS) universal interaction force,which involves not only the attractive forces but also the repulsive forces and applies to the microscopic,the meso-scopic and the macroscopic regimes,and the formula of FCS universal interaction force is established. The basic principle is that the wave property of a real physical object with the FCS quantization variable hBas its measure decreases from its maximum( hB= h) to its minimum( hB= hΔ) and correspondingly the particle property of the object increases from its minimum to its maximum when the bivergentum argument Bmof the object varies from 0 to∞. The main points include (1)the law of universal gravitation is rigorously valid for a pair of real physical objects when the particle properties of both objects reach their common upper limit. (2)In general cases,the property of the universal interaction force( attractive or repulsive) between a pair of real physicalobjects is related to their FCS quantization variables hB1,hB2 and the distance r between them. 3There exists a critical distance rcrelated to the spatial extension dimensions S1 and S2of the two objects' wave functions( determined by hB1 and hB2). The reversal of the property of the universal interaction force happens at the point r = rc,i. e. the force manifests itself as an attractive force when r〉 rcand as a repulsive force when r〈 rc. The truthfulness of this hypothesis needs to be tested by experiments. However,once it would be proved,the significance of this advancement might not be ignored. Probably,it might be contributive to the interpretations of relevant physical mechanisms in solid state physics,and might even give a clue to the further evolution of the theory of general relativity.
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