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X-ray source for spatial X-ray communication based on energy load signals

An energy load, X-ray technology, applied in the field of X-ray sources, can solve the problems of increasing the design difficulty of heat dissipation, unable to achieve fast modulation, affecting deflection performance, etc., to achieve the effect of fast communication speed, small impact, and increase communication speed.

Active Publication Date: 2019-11-26
NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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Problems solved by technology

[0003] In the above schemes, the transmission of digital signals "0" and "1" is realized through the presence / absence of X-ray signals. At the signal receiving end, all X-rays within the energy response range of the detector will be considered as valid signals. This is easily affected by cosmic rays and background X-rays in the real space environment, resulting in reduced signal-to-noise ratio and poor communication performance.
Moreover, more electrons will hit the grid during work, which will cause heat to be generated on the grid and increase the difficulty of designing heat dissipation
The patent (application number 201810193985.2) proposes a magnetic field modulation X-ray source for space X-ray communication, which uses a magnetic field to control the X-ray source to produce different characteristic X-ray emissions. In this scheme, the electron beam must be deflected greatly , a large magnetic field and a large current are required to generate a magnetic field. The ferrite core is used in the scheme. The increase of inductive reactance at high frequencies will affect the deflection performance, and fast modulation cannot be achieved.

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  • X-ray source for spatial X-ray communication based on energy load signals
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  • X-ray source for spatial X-ray communication based on energy load signals

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Embodiment Construction

[0029] The present invention is described in further detail now in conjunction with accompanying drawing.

[0030] Such as figure 1 X-ray source for space X-ray communication based on energy load signal, including: cathode assembly (power supply rod 1, power supply rod insulating ceramic 2, cathode cover 3, electron emission source 4, cathode cylinder 5), focusing electrode assembly (focusing electrode Diaphragm 7, focusing pole cylinder 8), anode components (anode diaphragm 10, first anode cylinder 11 and second anode cylinder 18), electric field modulation components (front ceramic pad 12, electrode holder 13, multi-lobe electrode 14, electrode Insulating ceramic 15, electrode rod 16, rear ceramic pad 17), multi-target transmission window assembly (beam baffle 19, multi-target transmission window 20, welding ring 21), the first vacuum ceramic cylinder 6 and the second vacuum ceramic Barrel 9. The electron emission source 4 is installed on one end of the power supply pole 1...

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Abstract

The invention relates to an X-ray source for spatial X-ray communication based on energy load signals; a cathode assembly of the X-ray source comprises an electron emission source, a power supply rod,power supply rod insulation ceramic, a cathode cover and a cathode barrel; a focusing electrode assembly comprises a focusing electrode diaphragm and a focusing electrode barrel; an anode assembly comprises an anode diaphragm and an anode barrel and is connected with a multi-target transmission window assembly through the anode barrel; an electric field modulation assembly comprises a multi-section electrode and an electrode bracket; and the multi-target transmission window assembly comprises metal target materials, a transmission window and a target welding ring. According to the X-ray source for spatial X-ray communication based on energy load signals in the invention, a fast-response high-frequency pulse modulation electric field modulation assembly is utilized to generate a modulationelectric field, the electronic motion track is changed, the different metal target materials on the multi-target transmission window assembly are bombarded, and characteristic X-rays with different energy are generated. The characteristic X-rays with various kinds of energy are used as code elements, so that rapid X-ray spatial communication based on energy load signals is achieved. The X-ray source in the invention is high in modulation speed, large in number of the loadable code elements, high in signal-to-noise ratio, low in error rate and high in communication speed.

Description

technical field [0001] The invention belongs to the technical field of space communication, and in particular relates to an X-ray source for space X-ray communication based on an energy load signal. Background technique [0002] X-ray space communication is a communication method that uses X-ray photons as carrier signals to realize information transmission. At atmospheric pressure less than 10 -4 Under the vacuum environment of Pa, the X-ray transmittance is almost 100%. And X-rays have the characteristics of high frequency, high energy and short wavelength. Utilizing these properties of X-rays and applying them to space communication can provide abundant channel resources for future space communication systems, enable communication in complex environments such as strong electromagnetic shielding environments, and effectively reduce the size of communication equipment and reduce aircraft loads . In the X-ray communication scheme currently proposed, Dr. Keith Gendreau, a...

Claims

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Application Information

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IPC IPC(8): H01J35/10H01J35/16
CPCH01J35/101H01J35/16
Inventor 黑大千赵磊金利民贾文宝单卿凌永生
Owner NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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