| 摘要 |
Disclosed is technology for fuel-free levitation, which converts atmospheric heat into a strong propulsion force, and depends only on the configuration of the materials used, not the quality. In order to achieve this, a nano-sized device is constructed. Any quality of material can be used to create a structure comprising two walls which are connected and fixed so as to face one another. Holes (1) are formed in one wall and a hole (2) is formed in the other wall. The holes pass through the walls and are positioned opposite one another. When the device is placed in the atmosphere, gas molecules in the air introduced via the holes exhibit De Broglie wave characteristic. Collisions between the gas molecules within the device can be discounted due to the size of the average free travel distance. As a result, even if, for example, the dimensions of the holes (1,2) are the same, there is a difference between the number of gas molecules moving from the first holes (1) to the second hole (2) and the number moving in the opposite direction, due to the effect of the diffraction and interference of the gas molecules. This imbalance induces a difference in the magnitude of the atmospheric pressure pushing on each of the walls and thereby applies a propulsion force to the device. A fuel is not required because atmospheric pressure is used substantially and specific material is not needed because the technology depends only on the configuration of the device. A strong propulsion force can be obtained through amassing a plurality of the devices.
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