Carbon allotrope composite field effect artificial aurora generating device

Abstract

A carbon allotrope composite field effect artificial aurora generating device includes an extremely low frequency power supply cabinet, a carbon allotrope composite field effect device and a cuboid-shaped water tank. The carbon allotrope composite field effect device is formed by alternately and in parallel superimposing, in a form of parallel capacitors, a plurality of planar electrode plates made of a foamed nickel deposited with a carbon allotrope composite and a plurality of planar separators made of an insulating material. A first output wire of the extremely low frequency power supply cabinet is connected to odd-numbered planar electrode plates of the plurality of planar electrode plates through a first conductive rod, and a second output wire of the extremely low frequency power supply cabinet is connected to even-numbered planar electrode plates of the plurality of planar electrode plates through a second conductive rod.

Claims

1. A carbon allotrope composite field effect artificial aurora generating device, comprising an extremely low frequency power supply cabinet, a carbon allotrope composite field effect and a cuboid-shaped water tank, wherein, the carbon allotrope composite field effect device is formed by alternately and in parallel superimposing, in a form of parallel capacitors, a plurality of planar electrode plates and a plurality of planar separators; each of the plurality of planar electrode plates is made of a foamed nickel deposited with a carbon allotrope composite, and each of the plurality of planar separators is made of an insulating material; a first output wire of the extremely low frequency power supply cabinet is connected to odd-numbered planar electrode plates of the plurality of planar electrode plates through a first conductive rod, and a second output wire of the extremely low frequency power supply cabinet is connected to even-numbered planar electrode of the plurality of planar electrode plates through a second conductive rod; and the carbon allotrope composite field effect device is fixed in the cuboid-shaped water tank fully filled with water.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic diagram showing the structure of a carbon allotrope composite field effect artificial aurora generating device.

(2) FIG. 2 is a schematic diagram showing the structure of the carbon allotrope composite field effect device.

(3) FIG. 3 is a schematic diagram showing the structure of the planar electrode plate made of a foamed nickel deposited with a carbon allotrope composite.

(4) FIG. 4 is a schematic diagram showing the structure of the planar separator made of an insulating material.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(5) A carbon allotrope composite field effect artificial aurora generating device includes the extremely low frequency power supply cabinet (1), the carbon allotrope composite field effect device (2) and the cuboid-shaped water tank (3).

(6) The carbon allotrope composite field effect device (2) is formed by alternately and in parallel superimposing, in a form of parallel capacitors, a plurality of planar electrode plates (4) made of a foamed nickel deposited with a carbon allotrope composite and a plurality of planar separators (5) made of an insulating material. The planar electrode plate (4) made of the foamed nickel deposited with the carbon allotrope composite is prepared by the method of the normal-temperature, vacuum and high-frequency plasma chemical vapor deposition on the diamond-like carbon film as follows: a foamed nickel with a thickness of about 0.5 cm is taken as a bias cathode substrate, and a carbon allotrope composite with a thickness of about 200 nm is deposited on the surface of the foamed nickel by controlling the chemical vapor deposition formation conditions, so as to obtain the planar electrode plate (4). The foamed nickel deposited with the carbon allotrope composite has a high specific surface area, and the tip of the surface micro-region of the foamed nickel can cause vortex motion, which is conducive to produce a certain number of superluminal abnormal high-energy charged particles. The planar electrode plates (4) made of the foamed nickel deposited with the carbon allotrope composite are alternately and in parallel superimposed in a form of parallel capacitors and are separated from each other by the plane partition plate (5) made of a plastic plate with a thickness of about 0.5 cm, which can avoid short circuit caused by the contact occurred between the planar electrode plates (4) made of the foamed nickel deposited with the carbon allotrope composite. One output wire (6) of the extremely low frequency power supply cabinet (1) is connected to odd-numbered planar electrode plates (4) made of the foamed nickel deposited with the carbon allotrope composite through the conductive rod (7), and the other output wire (8) of the extremely low frequency power supply cabinet (1) is connected to even-numbered planar electrode plates (4) made of the foamed nickel deposited with the carbon allotrope composite through the conductive rod (9), so that a plurality of planar electrode plates (4) made of the foamed nickel deposited with the carbon allotrope composite are alternately and in parallel superimposed and construct a form of parallel capacitors. The carbon allotrope composite field effect device (2) is fixed in the cuboid-shaped water tank (3) fully filled with water, so that the carbon allotrope composite field effect can be enhanced by atomic hydrogen and atomic oxygen produced from water ionization.

(7) When the extremely low frequency power supply cabinet (1) outputs an extremely low frequency electromagnetic wave with a power of 5-100 W and a frequency of 0-300 Hz, the carbon allotrope composite field effect artificial aurora generating device is in an optimized operation state, and thus the carbon allotrope composite field effect device (2) is stimulated to produce Schumann resonance and emit high-energy charged particles to excite the aurora.

(8) In the period of dawn or dusk when solar rays are nearly parallel to the horizon, the high-resolution camera can be used to record the aurora that is produced in the non-earth magnetic pole region and excited by the carbon allotrope composite field effect artificial aurora generating device. The dynamic information including the occurrence time, position and hue of the columnar greenish aurora composed of oxygen ions and the occurrence time, position and hue of the columnar fuchsia aurora composed of nitrogen ions is helpful to study and explore the formation and distribution characteristics of the non-dipole spatial magnetic poles in the earth's atmosphere magnetosphere and the effects of cosmic energy on the earth's climatic environment. In addition, the carbon allotrope composite field effect artificial aurora generating device can also be used as a meteorological means for controlling climate change and environmental pollution and predicting natural disasters.