Understanding Pulsars to Create a Future Space Propulsor

机译：了解脉冲星以创建未来的空间推进器

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Several binary pulsars exhibit trajectory anomalies that may have propulsion implications. Some binary pulsars, believed to have both stars at the same weight, are found to be in highly elliptical orbits and some binaries with vast differences in weight are in near circular orbits, which is counterintuitive. Similar weight conditions may be purely coincidental and this gravitational behavior may lie outside the realm of the conventional wisdom. Such pulsar behavior implies that gravity may act coincidently with the neutron star's rotation rate. Rotation of these Neutron stars, per Winterberg's conjecture, may induce a repulsive gravitational source analogous to creating negative matter that negates inertia. Moreover, swirling jets about the ejection axis leaving black holes imply that these jets may either move at greater than light speed or that the jet's angular momentum may generate a repulsive gravitational source. Interactions between the binary pulsar's two bodies as well as two of Jupiter's moons may provide indirect evidence that suggests Jefimenko's notion that gravity induces angular momentum may be correct. If true, these findings show that a significant relationship exists between angular momentum and gravity. Furthermore, this may mean mankind may develop a starship drive based upon converting angular momentum into linear momentum to colonize the cosmic near and far abroad.

机译：几个二元脉冲星表现出轨迹异常，可能具有推进作用。人们发现某些双星脉冲星被认为具有相同的重量，处于高度椭圆形的轨道上，而一些重量差异很大的双星则处于接近圆形的轨道上，这是违反直觉的。相似的体重状况可能纯粹是巧合，而这种重力行为可能超出了常规知识的范围。这种脉冲星的行为暗示着重力可能与中子星的旋转速度同时发生作用。根据温特贝格的猜想，这些中子星的旋转可能引起排斥性引力源，类似于产生抵消惯性的负物质。此外，绕射流轴旋转的射流会留下黑洞，这意味着这些射流的移动速度可能大于光速，或者射流的角动量可能会产生排斥性的引力源。双星脉冲星的两个天体以及木星的两个卫星之间的相互作用可能提供间接证据，这表明叶菲明科关于重力引起角动量的观点可能是正确的。如果为真，则这些发现表明角动量与重力之间存在显着的关系。此外，这可能意味着人类可能会基于将角动量转换为线性动量来发展星际飞船驱动力，从而在国外定居并远征宇宙。

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《AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition》|2011年|p.5721-5729|共9页
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Paul A. Murad;
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中图分类航空;
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g: gravitational field; G: gravitational constant; V: volume; W: weight; ρ: density; et al;

机译：g：引力场; G：重力常数; V：音量; W：重量; ρ：密度;等;

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机译：复制脉冲星的行为以创建未来的空间推进器
2. Pulsar Behaviour that may Impact a Future Space Propulsor [J] . P. A. Murad International Journal of Astronomy . 2013,第3期

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4. Understanding Pulsars to Create a Future Space Propulsor [C] . Paul A. Murad AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition . 2011

机译：了解Pulsars创建未来的空间推进器
5. Creating Scalable, Efficient and Namespace Independent Routing Framework for Future Networks. [D] . Jain, Sourabh. 2011

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6. X-Ray Pulsar-Based Navigation Considering Spacecraft Orbital Motion and Systematic Biases [O] . Mengfan Xue, Yifang Shi, Yunfei Guo, 2019

机译：考虑航天器轨道运动和系统偏差的基于X射线脉冲星的导航
7. Replicating Pulsar Behaviour to Create a Future Space Propulsor [O] . Murad P.A. 2011

机译：复制脉冲星的行为以创建未来的空间推进器

Understanding Pulsars to Create a Future Space Propulsor

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