重粒子輻射 的英文怎麼說
中文拼音 [zhònglìzifúshè]
重粒子輻射
英文
heavy particle radiation- 重 : 重Ⅰ名詞(重量; 分量) weight Ⅱ動詞(重視) lay [place put] stress on; place value upon; attach im...
- 粒 : Ⅰ名 (小圓珠形或小碎塊形物) small particles; grain; granule; pellet Ⅱ量詞(用於粒狀物)
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 輻 : 名詞(車輪中車轂和輪圈的連接物) spoke
- 射 : Ⅰ動詞1 (用推力或彈力送出) shoot; fire 2 (液體受到壓力迅速擠出) discharge in a jet 3 (放出) ...
- 粒子 : grain; granule
- 輻射 : radiation; exposure; radio; beaming
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The research uncovered the facts that, in the design of space vehicles, the single event effects induced by high - energy protons and iron ions in space must be taken into account seriously, the proper hardening measures must be taken to protect the electronic devices from disfunction. it is also suggested that, for the low - orbit satellites, the south atlantic anominal zone should be avoided
宇宙高能質子和鐵離子的單粒子效應在航天任務設計中需要重點考慮,空間應用的電子學元器件,必須進行適當的抗輻射加固,在設計低軌道衛星軌道時必須設法避開南大西洋異常區( saa ) ,航天任務設計中還需要掌握太陽質子事件總體上11年為周期的特性。His descriptions of how light can act as particles, how atoms can emit radiation, and how velocity and gravity affect clocks are all important to making common devices work today
他對光為何像粒子、原子如何放出輻射,以及速度與重力如何影響時鐘的解釋,對于現今常見裝置的運作都很重要。The rate of single event upset ( seu ) for space - based missions has been predicted by means of ground - based particle accelerator test and simulation calculation based on models of space radiation environment and the interaction of ions with the microelectronic device
我們採用的方法是用地面重離子加速器模擬實驗和計算機模擬空間輻射環境進行單粒子翻轉率預估計算。引發單粒子翻轉的空間高能帶電粒子環境包括銀河宇宙線,太陽宇宙線和地球輻射帶中的高能質子及重離子。In electron storage rings, the interactions by beams with residual gas produce the bremsstrahlung which has not been sufficiently understood and is the main course of the loss of the beam
由於加速器產生高能粒子,在實際應用中必須面臨輻射防護方面的問題。加速器儲存環直線節中殘余氣體產生的軔致輻射是同步輻射裝置中光束線防護的重要課題之一。The enhanced levels of high - energy particles and radiation can even pose serious biological threats to human beings working or travelling in space
大量高能粒子和輻射更會對在太空工作和航行的人員帶來嚴重的生命威脅。The research on the radiation effects of materials induced by high - energy proton irradiation is of important significance in many scientific fields, such as the single event effects of semiconductor components exposed on space, accelerator - driven nuclear energy generator, tritium production by accelerator, intense pulsed ion beam technology, proton radiography, etc. the effects and mechanisms of irradiation vary vastly for different energies and intensities of proton beams
宇宙高能質子的單粒子效應( see )研究、潔靜核能系統( ads )研究、加速器產氚計劃( apt ) 、強脈沖離子束( ipib )技術、質子斷層掃描等領域都涉及質子輻射效應問題。質子輻射對不同的材料會導致不同的效應,開展質子輻射效應產生的機制研究,掌握其效應規律,對于電子學元器件的抗輻射加固指標提出,以及在其他研究中的方案設計等都有重要意義。The expression of lexa protein in the iptg - induced jm109 ( pza172 ) was checked by sds - page, and the survival curve of this strain was measured using colony formation assay after treatment with different doses of radiation and different concentrations of mmc
應用電穿孔技術將攜帶有抗輻射菌lexa基因的重組質粒pza172轉入大腸桿菌jm109 ,其啟動子為lacz ,用iptg誘導, sds - page凝膠電泳檢測lexa蛋白的表達。The development of cordierite based infrared radiation materials with the substitution of partial mg2 + ions by transitional metal ions has been presented, and the influences and their mechanisms of the substitution of partial mg2 ions by transitional metal ions, synthesis temperatures and particle size on the infrared radiation materials have been investigated, which aims at promoting the application of the infrared radiation materials in the inner wall coating
本研究研製了過渡金屬離子固溶堇青石體系紅外輻射材料,著重研究了過渡金屬離子的種類與含量、合成溫度、顆粒粒度對材料紅外輻射性能的影響及其作用機制,其目的在於為堇青石固溶體系紅外輻射材料在內墻塗料中的應用打下基礎。As an advanced facility technique of radiation biophysics, single - ion microbeam facility provided a powerful method for the study of radiation biophysics and can be used to solve the problems that tradition methods ca n ' t deal with
作為輻射生物學發展的前沿,單粒子束裝置為輻射生物學研究提供了一個強有力的手段並可以解決傳統研究方法無法解決的問題,在世界范圍內受到廣泛的重視。As an advanced facility technique of radiation biophysics, single - ion microbeam facility provided a power method for the study of radiation biophysics and can be used to solve the problem that tradition method can not deal with. so many countries are concerned on the development of the technology
作為輻射生物學發展的前沿,單粒子束裝置為輻射生物學研究提供了一個強有力的手段並可以解決傳統研究方法無法解決的問題,在世界范圍內受到廣泛的重視。Development of aerospace technology is an important aspect for human entering the space, but the radiation belts in space which include the electromagnetic irradiation and charged particles irradiation greatly limited the pace for marching space
人類向空間發展是現代科學技術的重要方面之一,但空間存在輻射環境,這種輻射主要包括電磁輻射和粒子輻射。For the single - ion microbeam can irradiate cell in precise spatial and a predefined number of particle, so it can boost the research and appliance of low energy ion beam bioengineering
由於單粒子束可以對細胞進行定點定量輻射,所以它對促進離子束生物工程學的研究與應用都有重大意義。Among them, mass - defect effect ? when particle moves to the gravitational area from the infinity and com - bines into gravitational mass, part of its mass will be radiated out in the form of heat energy or other forms of energy - is an important gravitational effect
其中的質量虧損效應? ?粒子從無引力場的區域運動到引力場內並結合成引力質量時,質量的一部分要被輻射出去? ?就是一種重要的引力效應。With the world ' s protective magnetic shield severely disabled, intensified doses of cosmic and solar particles could knock out satellites ? the least of humanity ' s concerns under this deadly shower of radiation
一旦保護地球的這層磁場罩嚴重地失去作用,高能宇宙粒子及太陽粒子就可能會摧毀人造衛星,然而這種憂慮也不過是人類面臨這致命的輻射簇射中最微不足道的一點!The radiation shielding and single event upset ( seu ) of semiconductor components induced by high - energy low - flux and the thermal - mechanical effects of materials resulting from the high - energy intense - current proton irradiation are extensively studied, following conclusions are achieved : the characteristics of space radiation environment and the potential radiation effects are investigated systematically
利用本文編制的程序,著重研究了高能質子的輻射屏蔽問題、單粒子效應中的單粒子翻轉seu 、強流質子束輻照材料引起的熱?力學效應等問題,從而為以後的相關研究提供了數值模擬手段。論文的主要進展有:系統地總結分析了空間輻射環境的構成、特點及其可能產生的輻射效應。分享友人