生物磁效應 的英文怎麼說
中文拼音 [shēngwùcíxiàoyīng]
生物磁效應
英文
biomagnetic effect- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 磁 : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
- 效 : Ⅰ名詞(效果; 功用) effect; efficiency; result Ⅱ動詞1 (仿效) imitate; follow the example of 2 ...
- 應 : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
- 效應 : [物理學] effect; action; influence
-
Biological magnetic field : microwave energy produces by biological magnetic field penetrates into dermis, epidermis and hypodermis, and produces warm utility to expand capillary, activating hormone - sensitive lipase and consuming excessive fat
生物磁場:通過生物磁場,進入皮膚表皮、真皮、皮下組織,產生溫熱效應可以使微血管擴張,增加組織反應酶的活性,使脂肪在皮下燃燒,消耗多餘脂肪。So the related mechanism studies of the cellular signal transduction have advantages for investigating biological effects of ele - emf
對極低頻電磁場信號轉導過程的研究,有利於揭示其生物效應的機制。Effect of magnetic field with different strengths on the free radical concentration in sesamum indicum seeds
梯度磁場對芝麻種子生物效應的影響In order to find an explanation and to determine the possible mechanism of these biological effects, many in vitro and in vivo studies of emf effects have been published. these studies were involved in many enzymes ( such as odc, succinate dehydrogenase, pkc ), pro - oncogene ( c - myc, c - fos, etc. ), gap junction and protein synthesis, and so on
為了揭示工頻磁場生物效應的機制,尤其是與腫瘤發生發展的關系,人們開展了較為廣泛的體內及體外的實驗研究,涉及到各種生物酶類( odc 、琥珀酸脫氫酶、 pkc等) 、原癌基因( c - myc 、 c - fos等) 、細胞間縫隙連接及蛋白合成等方面。Biological effects of electromagnetic radiation on organisms
電磁輻射對生物體的生物學效應The difference between the magnetic moments for the samples with respective doping level can be ascribed to the variation of the competition between thermal effect and the magnetic coupling. based on the spin orientation rotation of dy sublattice as well as the antiferomagnetic coupling between dy sublattice and mn sublattice, we successfully elucidate the changes of magnetic structure in perovskite compounds s. electron spin resonance ( esr ) study on perovskite compounds on the basis of chapter 4, we give further study on micromagneticism of dy - doping perovskite compounds la0. 67 - xdyxsr0. 33mno3
其中第一節簡單回顧了早期對a位雙稀土元素元素摻雜鈣鈦礦化合物的研究,早期研究較多的是替代元素的離子半徑變化上,由於替代離子半徑的改變,使a位平均半徑變ylll化,致使公差因子改變,使mn o長、鍵角變化,晶格效應的作用使化合物的磁性、電性、 cmr效應發生改變。These particles will aggregate into a certain structure when the applied field yields a critical value. the other is fabricated from " half - metallic " oxides, i. e., ferromagnetic oxides which are predicted theoretically to be completely spin - polarized and really found experimentally to have very high spin - polarization. when a magnetic field is applied to half - metallic granular systems, the resistance will drop rapid and dramatically, which is called the extrinsic magnetoresistance effects in half - metallic granular systems
在磁性材料中,亦有由在理論上具有完全的自旋極化率、在實驗中也被證實具有高自旋極化率的一系列半金屬氧化物材料構成的多晶、粉末等顆粒體系,被發現能在外磁場下發生顯著的電阻下降,即半金屬氧化物顆粒體系中的外稟磁電阻效應。Obtaining structure and function of proteins is one of the main purposes of research in biology, but determining three - dimensional structure of protein by means of x - rays crystallography and nuclear magnetic resonance spectroscopy, and research in protein structure by the way of biochemistry, already can ’ t adapt the need of the rapid increase of protein sequence
獲取蛋白質的結構和功能是生物學研究的重要目的之一,但是使用x光晶體衍射和核磁共振技術等實驗手段測定蛋白質的三維結構,以及使用生物化學方法研究蛋白質的功能時效率不高,已經無法適應蛋白質序列飛速增長的需要。Recently, litovitz et al raised the spatial coherence theory of electromagnetic field ( emf ). the theory thinks that regular mf is spatial coherence field and noise mf is spatial incoherence field, the noise mf could inhibit the biological effects induced by mf
近年來, litovitz等提出了電磁場的時空相干理論:認為規則電磁場是相干場,可誘導生物體產生效應,而噪聲磁場為非相干場,可以干預前者的生物效應。Some physical methods of herbage seed selection applied in grassland ecotogical resume were introduced, including electric field, magnetic field, physical radiation, laser, ion beam and alternative stress etc., and their application in biological effect, induced breeding and transgenic techniques
摘要介紹了草原生態恢復中選育優良牧草種子的一些物理學方法,包括電場、磁場、物理輻射、激光、離子束和交變應力等在植物的生物學效應、誘變育種和轉基因技術中的應用。There exists magnetoelectric effects in two type of material, one of them is spin - order material called magnetoelectrics that may exhibits an induced linear magnetoelectric effect by external field. this effect is named as the electrically induced magnetoelectric effect ( me ) e or magnetically induced magnetoelectric effect ( me ) h a ferroelectromagnet, however, differs from the magnetoelectrics in that it shows spontaneous magnetoelectric effects in addition to the ( me ) e, h effects induced by external fields
磁電效應主要存在於兩類物質中,一類是自旋-軌道有序的物質所表現出的外場(磁場或電場)誘導的線性磁電效應( me ) _ ( h , e ) ,又被稱為磁場感生的電矩效應或電場感生的磁矩效應。And this biology reaction provides certain precondition for the cure of diseases. for instance, when magnetic field starts to do effect on human body, it will help to convey nutrition and oxygen to tissue cells of every part of the body as well as transmit waste made by tissue cells to the outside by expanding the blood vessel, speeding up blood current and improving blood circulation. as quite a number of diseases are usually caused by blood circulation disturbance, the magnetic field is able to satisfy the demand of tissue cells in both aspects, hence, cure the above diseases
磁場雖然看不見,摸不著,但它是一種物理能量,物理治療因素,作用到人體后,在體內引起一系列生物學效應,而這些生物效應,為治療某些疾病提供了條件,舉個例子說:磁場作用到人體后,可使血管擴張,血流加快,改善血液循環,可以把組織細胞需要的營養物質氧氣送到全身各處組織細胞,又可把組織細胞的代謝廢物帶走,而不少病癥與血液循環障礙有關,磁場可以幫助「滿足」組織細胞的兩方面需要,與以上有關的疾病就可以得到治療。In order to confirm the effects of noise mf, in the present study, we use 0. 4mt mf and noise mf, which intensity is hundred times than the previous studies and is proved repeatedly in our experiments to produce the clear biological effects, to examine the effects of noise mf on the clustering of egf, tnf receptors and sapk phosphorylation induced by 50hz mf
故本文使用上述經反復驗證的、強度0 4mt 、具有明確生物效應的工頻磁場及相同強度的噪聲磁場,以sapk磷酸化及細胞膜egf與hf受體聚簇程度為研究指標,探索了噪聲磁場及由噪聲磁場與工頻磁場疊加產生的復合磁場的生物效應。But the mechanism of the biological effects of elf - emf is still unclear
然而極低頻電磁場生物效應的機制仍不明確。However, evidence is accumulating that exposure to extremely low frequency electromagnetic field may produce a lot of biological effects
然而越來越多的研究提示,極低頻電磁場可引起有害的生物效應。Electromagnetic induction heating has many good qualities, such as high speed heating, inner heating and high efficiency, uniform and selective heating. the products have good qualities. electromagnetic induction heating also has the characters of easy to be automatization of control, so it is developing at a high speed in recent years
電磁感應加熱具有加熱速度快、物料內部發熱效率高、加熱均勻,且具有產品質量好、幾乎無環境污染、可控性好及易於實現生產自動化等一系列優點,因此近年來得到了迅速發展。Biological oxidative stress induced by electromagnetic irradiation
電磁輻射誘導的生物氧化應激效應Abstract : based on experimental analysis of magnetization in sew age treatment, this paper studied the biological effect of magnetization, e. g. its bactericidal action and the action of promotion algae growth etc, and analyzed th e mechanism of removal organic contaminent by magnetization
文摘:論文通過磁化處理污水的試驗分析,研究了磁化對好氧微生物的活性、滅菌及促進藻類初級生產力等的生物效應,並進一步分析了磁化去除有機物的機理。Many novel physical phenomena such as coherent population trapping, lasing without inversion, electromagnetically induced transparency as well as spontaneous emission cancellation and enhancement based on quantum interference have been discovered
基於量子干涉效應,產生了許多新的物理現象和效應,如相干布居捕獲、無反轉激光、電磁感應透明和自發輻射相消等。However, the inhibition effects of noise mf on biological effects induced by mf were not accepted universally because the intensity of mf which used in these experiments was too small ( at micro - tesla order ) to produce the certain biological effects. so the theory is controversy
然而,由於驗證該理論的實驗研究所用的磁場強浙江大學博士學位論文度很低(微特斯拉級) ,其本身所誘導的生物學效應存在不確定性,科學界對其結果尚存在爭論,因此,噪聲磁場的干預效應一直沒有被廣泛接受。分享友人