公开(公告)号：US20110315867A1

公开(公告)日：2011-12-29

申请号：US13075138

申请日：2011-03-29

Applicant: GLENN LANE

Inventor： GLENN LANE

IPC: H01J49/30

CPC classification number: H01J27/00 ,  H05H1/54

Abstract: A closed plasma channel (“CPC”) superconductor which, in a first embodiment, is comprised of an elongated, close-ended vacuum conduit comprising a cylindrical wall having a longitudinal axis and defining a transmission space for containing an ionized gas of vapor plasma (hereinafter “plasma components”), the plasma components being substantially separated into regionalized channels parallel to the longitudinal axis in response to a static magnetic field produced within the transmission space. Each channel is established along the entire length of the transmission space. At least one channel is established comprised primarily of free-electrons which provide a path of least resistance for the transmission of energy therethrough. Ionization is established and maintained by the photoelectric effect of a light source of suitable wavelength to produce the most conductive electrical transmission medium. Various embodiments of the subject method and apparatus are described including a hybrid system for the transmission of alternating current or, alternatively, multi-pole EM fields through the cylindrical wall and direct current or charged particles through the stratified channels.

Abstract translation: 一种封闭的等离子体通道（“CPC”）超导体，其在第一实施例中由细长的近端真空导管组成，其包括具有纵向轴线并且限定用于容纳蒸汽等离子体的电离气体的透射空间的圆柱形壁 以下称为“等离子体部件”），响应于在传输空间内产生的静态磁场，等离子体部件基本上分离成与纵向轴线平行的区域化通道。 每个通道沿传输空间的整个长度建立。 至少建立了一个通道，主要由自由电子组成，其提供通过其传输能量的最小电阻的路径。 通过适当波长的光源的光电效应建立和维持电离以产生最导电的电传输介质。 描述了本发明方法和装置的各种实施例，其包括用于传输交流电的混合系统，或者通过圆柱形壁的多极EM场，以及通过分层通道的直流或带电粒子。