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All-sky atmosphere gravitational wave imager

A gravitational wave and all-sky technology, which is applied in the direction of instruments, scientific instruments, and gravitational field measurement, can solve the problems of increasing the diameter of the imager, complex design and processing, and the limitation of miniaturization and portability of the imager, so as to achieve convenient adjustment and convenient optics aberration effect

Active Publication Date: 2010-12-22
NAT SPACE SCI CENT CAS
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Problems solved by technology

The disadvantages are that it is relatively difficult to purchase a specific type of fisheye lens, the cost of a larger-sized filter is high, and the diameter of the imager is increased, and the design and processing of a specific optical lens is more complicated, so that multi-point observation of atmospheric gravity waves, Imagers are limited in terms of miniaturization and portability

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  • All-sky atmosphere gravitational wave imager
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  • All-sky atmosphere gravitational wave imager

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Embodiment Construction

[0015] The all-sky atmospheric gravity wave imager of the present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0016] figure 2 It is a schematic diagram of the structure and optical path of the all-sky atmospheric gravity wave imager of the present invention, taking a fisheye lens with a focal length of 10.5mm#F2.8 and a filter with a diameter of 2 inches as an example. like figure 2 As shown, the all-sky atmospheric gravity wave imager of the present invention includes: a fisheye lens 1, a three-piece optical path adjustment lens group composed of a first lens 2, a second lens 3 and a third lens 4, and an optical filter 5 , an imaging lens 6 and a scientific-grade CCD camera 7, using OH and O2 airglow radiation as tracers, to realize the imaging of atmospheric gravity waves in the whole sky,

[0017] Wherein, the first lens 2 adopts a positive lens, and it is placed near the focal plane of the fishey...

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Abstract

The invention provides an all-sky atmosphere gravitational wave imager which comprises a fisheye lens, a three-lens light path adjustment lens group, an optical filter, an imaging lens and a scientific CCD (Charge Coupled Device) camera, wherein the three-lens light path adjustment lens group comprises a first lens, a second lens and a third lens, the first lens is a plus lens and is arranged close to the focal plane of the fisheye lens, the second lens which is a plus lens and the third lens which is a minus lens are arranged behind the first lens, and the third lenses are matched with the fisheye lens mutually so that light emitted from the third lens meets the angular requirement of the band width of the optical filter on incident light, then passes through the optical filter, the imaging lens sequentially and finally reaches the scientific CCD camera connected with the imaging lens, and thus, the all-sky atmosphere gravitational wave imager realizes the all-sky 180-degree atmosphere gravitational wave imaging by taking OH and O2 airglow radiation as a tracer. The all-sky atmosphere gravitational wave imager not only can realize higher-accuracy gravitational wave activity observation, but also can reduce cost and size and has concise structure and high accuracy.

Description

technical field [0001] The invention relates to an optical imaging instrument for observing atmospheric gravity waves, in particular to an all-sky atmospheric gravity wave imager capable of realizing two-dimensional imaging of the entire sky's atmospheric gravity wave activity level. Background technique [0002] Atmospheric gravity waves will disturb the airglow radiation layer during the upload process, and the observation of atmospheric gravity wave activities can be realized by using atmospheric airglow radiation as a tracer. In the airglow radiation belt of the middle and upper atmosphere, the radiation in the visible light to near-infrared bands is the broadband OH and the narrow-band O2 airglow layer, and the bands are about 750-850nm and 865±2.5nm respectively. Both glow radiation can be used for gravitational wave active imaging observations. [0003] figure 1 is a schematic diagram of the existing all-sky atmospheric gravity wave imager, such as figure 1 As show...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V7/00G01V7/02
Inventor 胡雄涂翠郭商勇闫召爱程永强
Owner NAT SPACE SCI CENT CAS
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