x-ray astronomy 中文意思是什麼
x-ray astronomy
解釋
X射線天文學。-
X-ray astronomy has made impressive progress.
X射線天文學已取得了引人注目的進展。 -
The renowned american satellite uhuru exemplifies the capabilities of x-ray astronomy.
著名的美國「烏呼魯」衛星充分顯示了X射線天文學的威力。 -
The renowned american satellite uhuru exemplifies the capabilities of x - ray astronomy
著名的美國「烏呼魯」衛星充分顯示了x射線天文學的威力。 -
Contribute a little to either ultra-violet astronomy or x-ray astronomy.
所以氣球攜帶的儀器對紫外線天文學或X射線天文學的貢獻是不大的。 -
Of course, the next big step for chinese space astronomy would be to deploy a satellite dedicated only for astronomical research. there are currently a few projects in the planning stage, including a hard x - ray all - sky survey satellite the hard x - ray modulation telescope mission, and a " microsatellite " weight less than 100 kg mission to study long - term variability of stars and galaxies space - based multi - band variable objects monitor
當然,下一步首先應是發射專門用作天文研究的衛星,目前有幾個計劃正處于策劃階段,包括建造一枚作硬x射線巡天觀測的衛星硬x射線調制望遠鏡, hxmt和一枚微型衛星重量不逾100公斤,來研究恆星和星系的長期變化空間變源監視器, svom 。 -
With the furthermore development of ultra thin film technology, soft x - ray multilayer mirrors was applied in many fields, such as astronomy, microscope technology, euv lithogrphy, x - ray laser, icf diagnosis and so on
隨著軟x射線超薄膜制備技術的不斷發展,軟x射線多層膜反射鏡已在多個領域中投入研究與應用,如天文學、生物醫學顯微鏡、極紫外投影光刻技術、 x射線激光、高溫等離子體診斷等等。 -
The space observation in soft x - ray and extreme ultraviolet ( euv ) region is an important portion of the space astronomy and an effective solar observation method developed increasingly. in this thesis we designed a euv multi spectrum space solar telescope ( eut ) based on the requirement of high angular resolution and wide field of view for solar observations ; investigated the transmission performance of eut ; invented a method of eut pointing calibration on the space orbit and solved the high precision pointing calibration problems ; constructed a prototype of 17. 1nm telescope, tested the possibility of eut design, and developed some cutting - edge techniques
本文根據空間平臺上高解析度對日觀測的需要,設計出一種可以在四個極紫外波段對日同時成像多光譜太陽望遠鏡( eut ) ;研究了極紫外( euv )波段太陽望遠鏡光學傳輸特性;提出了真空紫外波段在軌指向的標定方法,解決了高精度指向標定問題;研製出一臺17 . 1nm望遠鏡的地面樣機,驗證eut設計的可行性,攻克了部分關鍵的技術難關;為進一步的研究工作奠定了基礎。
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