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Double-beam laser emission device of highly charged ion by transversely repetitive collision of high speed surface electron currents

A technology of laser emission and electron flow, which is applied to phonon exciters, lasers, laser components, etc., can solve problems such as short wavelength, high power, and large monochromatic brightness

Active Publication Date: 2012-02-22
姜仁滨
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Problems solved by technology

[0003] The purpose of the present invention is to overcome the serious defects of the above-mentioned current laser emitting devices, and solve how to generate and utilize the high-speed surface electron flow of highly charged ions to repeatedly collide with ionization excitation transitions in the horizontal direction to obtain large monochromatic brightness, high power, and longer wavelength. Technical Problems of Short and Practical Dual-beam Laser

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  • Double-beam laser emission device of highly charged ion by transversely repetitive collision of high speed surface electron currents
  • Double-beam laser emission device of highly charged ion by transversely repetitive collision of high speed surface electron currents
  • Double-beam laser emission device of highly charged ion by transversely repetitive collision of high speed surface electron currents

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Embodiment Construction

[0044] Now in conjunction with above-mentioned accompanying drawing, the technical solution of the present invention is further described:

[0045] exist figure 1 The lower-velocity surface electron flow laterally collides with the single-charged ion beam injection section (A) to the left of the flat track-shaped higher-velocity surface electron flow laterally collides with the high-charged ion ionization ring (B). At the starting point of the electron flow on the lower-speed surface laterally colliding with the single-charged ion beam injection section (A), there is a high-temperature atomic furnace (1) equipped with a high-frequency induction heating circuit to melt and gasify metal or non-metal laser materials, or After the gas laser material is heated, it is sprayed out from the wide and small rectangular furnace mouth (2) to form a high-intensity atomic beam (3). The high-intensity atomic beam (3) enters a relatively narrow surface electron flow with a voltage slightly g...

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Abstract

The technical scheme of the invention employs a flat racetrack highly charged ion ionized ring with high speed surface electron current's transversely repetitive collision to convert a high-strength single charge ion beam into a high-strength highly charged ion beam with an ionization degree of mu; and a flat racetrack highly charged ion excitation ring with high speed surface electron current's transversely repetitive collision is utilized to enable emission of highly charged ion double-beam high-strength laser to be realized. Besides, a method in which a linear track length of a highly charged ion beam is changed is used to study a function relation between intensity of various wavelength lights radiated by a highly charged ion beam and a linear track length of the highly charged ion beam, so that coherence of the radiant lights of the highly charged ion beam and a laser length are determined; and moreover, according to an accurate calculation result of a fully relativistic multi-configuration SCF method, an ion, an energy level and transition of radiation laser are determined. According to the invention, the emission device has various practical purposes according to different laser wavelengths and different powers, wherein the various practical purposes include from obtaining of a high contrast hologram image of a biological internal structure to novel weapon equipment.

Description

technical field [0001] The invention belongs to large-scale electromechanical products, and is specifically a double-beam high-intensity laser emitting device for high-speed surface electron flow laterally colliding with high-charged ions back and forth. Background technique [0002] Now in the laboratory, the electron longitudinal impact ionization excitation transition of low-charged ions such as hydrogen-like, lithium-like, neon-like and nickel-like has been used to obtain a wavelength of 48.18-284.7 Single-beam laser within the range, but the monochromatic brightness is small, the power is low, and the wavelength is not short enough, so it cannot be practically applied. Contents of the invention [0003] The purpose of the present invention is to overcome the serious defects of the above-mentioned current laser emitting devices, and solve how to generate and utilize the high-speed surface electron flow of highly charged ions to repeatedly collide with ionization excit...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S3/00H01S3/10
Inventor 姜仁滨王宛珏王晓东
Owner 姜仁滨
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