最终统一的尺度独立可行模型

U. Seshavatharam, S. Lakshminarayana
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引用次数: 8

摘要

我们证明了普朗克质量的史瓦西半径在电弱和强相互作用中起着至关重要的作用。参考观察到的大比例比,,似乎可以考虑一个大的核引力常数,。从质量上讲,这个想法与Abdus Salam和C.Sivaram [Mod. physics]提出的“强引力”概念是一致的。列托人。, 8(4), 321- 326。(1993)]。我们想建议,通过用提出的核引力常数取代牛顿引力常数,可以将弦理论预测的高能级降至当前的强子尺度。基于这一思想,我们定义了核普朗克质量,并提出了理解强子质谱的量子化模型机制。
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Scale Independent Workable Model of Final Unification
We show that, Schwarzschild radius of Planck mass plays a vital role in electroweak and strong interactions. With reference to the observed large proportionality ratio, , it seems appropriate to consider a large nuclear gravitational constant, . Qualitatively this idea is in agreement with 'Strong gravity' concept proposed by Abdus Salam and C.Sivaram [Mod. Phys. Lett., A8(4), 321- 326. (1993)]. We would like to suggest that, by replacing the Newtonian gravitational constant with the proposed nuclear gravitational constant, predicted high energy levels of String theory can be brought down to the current hadronic scale. Based on this idea, we defined the nuclear Planck mass, and proposed a quantized model mechanism for understanding the hadronic mass spectrum.
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