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公开(公告)号:US20240274303A1
公开(公告)日:2024-08-15
申请号:US18108329
申请日:2023-02-10
Applicant: David Allen LaPoint
Inventor: David Allen LaPoint
Abstract: A controlled fusion reactor that is constructed using two opposing bowl-shaped magnetic arrays that are covered by U.S. Pat. No. 8,638,186 B1 by the same inventor. The opposing bowl-shaped magnetic arrays are contained within a chamber under a high vacuum level and can be fed a controlled amount of a gas, such as hydrogen. Electrodes located in the bottom of the bowl-shaped arrays and the conductive screens surrounding the rim of the bowl-shaped magnetic arrays are supplied with high-voltage electricity which causes a high-velocity jet of plasma to be ejected from each opposing bowl-shaped magnetic array. The construction of the fusion reactor is such that the plasma jets collide in the middle of the reactor between the two bowl-shaped magnetic arrays. An additional element, such as boron, is fed to the reactor when the goal is the fusion of elements such as hydrogen and boron.
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公开(公告)号:US08638186B1
公开(公告)日:2014-01-28
申请号:US13624857
申请日:2012-09-21
Applicant: David Allen LaPoint
Inventor: David Allen LaPoint
IPC: H01F7/02
CPC classification number: H01F7/0278
Abstract: A magnetic array with a bowl-shaped array of magnets oriented to induce a structured and oriented ionic flow towards a focal point. The magnets include a north pole and a south pole oriented to induce the ionic flow. Either poles face inwardly from the array to induce an ionic flow. Varying the size, dimensions, strength, and orientation of the magnets manipulates the ionic flow to a desired strength and velocity. The ionic flow increases in strength and concentration when in proximity to the narrow end. The ionic flow forces objects inside the array towards a hole in the narrow end.
Abstract translation: 磁性阵列,其具有朝向朝向焦点的结构化且取向的离子流定向的碗状阵列阵列。 磁体包括北极和南极,以引导离子流动。 两极都从阵列向内,以诱导离子流。 改变磁体的尺寸,尺寸,强度和取向使得离子流动达到所需的强度和速度。 当靠近窄端时离子流的强度和浓度增加。 离子流迫使阵列内的物体朝向狭窄端的孔。
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