Corrections to Newton's gravitational law inspired by extra dimensional physics and by the exchange of light and massless elementary particles between the atoms of two macrobodies are considered. These corrections can be described by the potentials of Yukawa-type and by the power-type potentials with different powers. The strongest up to date constraints on the corrections to Newton's gravitational law are reviewed following from the Eo'tvos- and Cavendish-type experiments and from the measurements of the Casimir and van der Waals force. We show that the recent measurements of the Casimir force gave the possibility to strengthen the previously known constraints on the constants of hypothetical interactions up to several thousand times in a wide interaction range. Further strengthening is expected in near future that makes Casimir force measurements a prospective test for the predictions of fundamental physical theories.
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机译:考虑了对牛顿的引力法的矫正,由额外的尺寸物理和通过两种大致胶质叠的原子之间的光和无抽吸基本粒子交换。这些校正可以通过Yukawa型的潜力和具有不同功率的功率型电位来描述。从Eo'Tvos和Cavendish型实验和Casimir和Van der Waals Force的测量中审查了对牛顿引力法的更正的最强烈约束。我们表明,最近的Casimir力的测量能够在广泛的交互范围内加强对假设相互作用的常数上述约束的可能性。在不久的将来预期进一步加强,使Casimir力量测量了对基本物理理论的预测的前瞻性测试。
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