helical structure 中文意思是什麼
helical structure
解釋
螺旋構造-
Cells only the chromatin or chromosomes are heavily stained, the other components are bleached. after the chromosomes are stained by nama - ur, we have observed that the highest order structure of chromosomes is helical ; while the secondary structure is radically folding. the dna fibres with a diameter of 2530 nm have radically folded into chromatid fibres in a diameter of approximately 250 nm
染色體經dna特異染色后,觀察到其最高層次結構是螺旋的,而次級結構存在著放射環結構,即由直徑為2530 nm的dna纖絲放射狀折疊排列成約250 nm左右的染色單體絲染色單體絲進一步螺旋形成中期染色體結構。 -
In addition, there are some intrinsic special properties like rotary polarization, bragg reflection, polarized light dichroism of clc because of its helical molecular structure
而且其螺旋狀的分子排列結構,使其還具有它本身特有的光學特性,如旋光性、選擇性反射特性(布拉格反射)和偏光二色性。 -
A theory for the analysis of the arbitrarily - shaped helical groove structure is obtained by means of an approximate field - theory
採用近似場論的方法,獲得了一種分析任意槽形螺旋槽結構的普遍理論。 -
Considering the influence of high evanescent modes, we have obtained the common theory. by the comparing between theoretical calculation and experimental data, we found the theory can accurately describe the high - frequency characteristic of this kind of slow - wave helical groove structure. then, five representative shapes are chosen and researched particularly ( triangle shape, cosine shape, trapezoid shape, rectangular shape and swallow - tailed shape )
主要工作成果和創新之處在於: 1 .通過考慮高次模式的影響,獲得了一種更為精確分析任意槽形螺旋槽結構的普遍理論,經與實驗測量值比較,發現它更能準確可靠地描述此類螺旋慢波結構的高頻特性,然後詳細研究了五種槽形狀(三角形槽、餘弦形槽、梯形槽、矩形槽和燕尾形槽)對螺旋槽慢波系統導波特性的影響。 -
For the first time we investigate detailedly on the theory of the conductor - centered arbitrarily - shaped helical groove structure. we divide the arbitrarily - shaped helical groove into many consecutive small rectangle area to approximate the original groove. the recurrence relation of the admittance is obtained
首次對具有中心導體軸的任意槽形螺旋槽結構的普遍理論進行了研究,通過以多層矩形階梯來近似代替任意形狀槽的邊界的方法,同時對導納的遞推關系進行了詳細的推導。 -
( 3 ) when f is about fr, the secondary flow reaches its weakest intensity, but has a most complicated structure. for co - rotation and counter - rotation in which the centrifugal force dominates the flow, the secondary flow in a rotating helical pipe has the same direction with that in a stationary one. for counter - rotation in which the coriolis force dominates the flow, the secondary flow has the opposite directions to that in a stationary one
( 3 ) f在fr左右(離心力和科氏力相當的負旋轉) ,二次流強度最弱,但結構最復雜;對于正旋轉和離心力占優的負旋轉,二次流速度的方向和靜止的情況相同;對于科氏力占優的負旋轉,二次流速度的方向和靜止的情況相反。 -
By a large amount of calculations, the influence of the structure dimensions and the dielectric parameters on dispersion characteristic and coupling impedance of this kind of slow - wave structure is obtained. then, the linear beam - wave interaction theories of the arbitrarily - shaped helical groove waveguide and the dielectric into the arbitrarily - shaped helical groove waveguide are deduced. by the numerical calculations, the relationship is got between the small signal gain, bandwidth, electromagnetic " hot " velocity and the electronic beam, the structural parameters
通過數值計算,獲得了此類慢波結構的色散特性和耦合阻抗隨結構幾何尺寸和介質參數的變化規律;在此基礎上,建立了任意槽形螺旋槽及中心加介質棒的任意槽形螺旋槽行波管的注-波互作用線性理論,並編製程序,計算了管子的小信號增益、帶寬、電磁慢波的「熱」相速與電子注參數、結構參數之間的關系,獲得了增加帶寬或增益的途徑。 -
The research on the rf characteristics of the conductor - centered helical groove sws. ( a ) in the " cold " system, we found that the changing of depth of the groove has no distinct effects on the phase velocity at the lower frequency region ; but with the increasing of the frequency, the phase velocity and bandwidth are reduced slightly, the structure is more dispersive and the coupling impedance is enhanced
對具有中心導體軸的矩形螺旋槽慢波系統的高頻特性進行了理論研究: ( 1 )在冷系統中的研究結果表明:頻率較低時,槽深的改變對相速的影響不是很大,隨著頻率的增大相速略有減小,同時帶寬也有所減小,色散變得稍強,耦合阻抗增大。 -
Effect of pressed helix in helical slow - wave structure on twt cold - test characteristics
螺旋線徑向擠壓變形對其慢波結構冷測特性的影響 -
Besides the routine characteristics, xs series worm gear units adopts the helical gear - worm wheel type to make the structure more reasonable. the series not only has higher transmission efficiency and loading capability than those of single - stage worm wheel transmission, but also reduces space. moreover, under the close volume, the series can obtain higher transmission ratio and is more favorable for equipment setting
Xs系列蝸輪蝸桿減速機除具有常規特性外,該機還採用了斜-蝸輪形式,使結構更加合理化,它不僅改變了比單級蝸輪蝸桿傳動具有更高的傳動效率和承載能力,而且在結構布局上縮小了空間佔地面積,同時在相近體積條件下,能獲得更大傳動比,更有利於設備的配置,該機能與各種減變速機組合,滿足不同的使用要求。 -
In this paper a newly develoed helical coordinates is used to make out the solution of electromagnetic fields in the helix gap and calculate dispersion characteristics of tape helix slow wave structure for the first time. strict boundary conditions for magnetic fields are adopted and are treated rigorously by fourier expansion. besides, the radial propagation constant of every layer in the dielectric - loaded region is differentiated. some of practical tape helix slow wave structures have been calculated for dispersion characteristics and the calculated values accord with measured values very well. the authors also compare the calculated results with experiments for different structures by changing tape thickness or other structure parameters and find that the theory in the paper is universal
本文首次運用螺旋坐標系給出了帶狀螺旋線縫隙內的電磁場解,並據此計算了帶狀螺旋慢波結構的色散特性.文中採用了嚴格的邊界條件,並以傅立葉展開進行了嚴格的數學處理.另外還首次對有介質區域內各層的徑向傳輸系數作了區別.本文使用這種方法計算了我們已研製的一些寬帶高功率行波管所用的慢波線結構的色散特性,理論與實驗符合得很好.我們還計算了不同結構參數對色散特性的影響,並與實驗作了對照,發現本文的理論有一定的普適性 -
In the same time, it would increase in the contents of the a - helical and p - turn conformation in the secondary structure of the mp - 11 molecule and decrease in the content of the random coil conformation, leading the increase in the exposure extent of heme group
同時也使mp - 11二級結構中有規結構含量增加,無序結構摘要含量降低,使血紅素的暴露程度增加,而使mpll的電化學反應可逆性增強。 -
The contents of the a - helical and p - turn conformation in the secondary structure of the mp - 11 molecule increase and the content of the random coil conformation decreases due to the coordination of cd2 + with s in the peptide of mp - 11 firstly
由於cd ~ ( 2 + )優先與多肽鏈中的s鍵合,引起mp - 11二級結構有規結構含量增加,無序結構含量降低。
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