molecular physics 中文意思是什麼

molecular physics 解釋
分子物理學
  • molecular : adj. 分子的,由分子形成的,分子內[間]的。adv. -ly
  • physics : n. 〈通常用作單數〉 1. 物理學。2. 物理過程;物理現象;物理性質;物理成分。
  1. The thesis includes three parts : firstly, previous study and latest advance of molecular motor in biology are outlined, including myosin ' s and kinesin ' s construction and function, the latest advance of molecular motor in constructional biology ; secondly, the latest advance of molecular motor in physics is reviewed, including the general view of brownian motor and two examples of molecular motor, one being related to two kinds of flashing potention energy, the other being related to electronical bipole ; and finally, the model on unidirectional motion of molecular motor is in detail come up with, and especially, the interact ion between two heads is taken into account, followed by the construction of langevin equation and fokker - planck equation involved in the model. by using solutions of fokker - planck equation, unidirectional motion mechanism of molecular motor is analyzed

    本文內容包括:首先綜述生物學領域分子馬達研究的最新進展,內容安排為:肌球蛋白的結構和功能,驅動蛋白的結構和功能,肌球蛋白和驅動蛋白定向運動機制的結構生物學方面的最新進展;其次綜述並分析了當前研究分子馬達定向運動機制的幾種物理模型,內容安排為:分子馬達運動的基本觀點和建構模型的一般方法,勢壘的兩態漲落誘導的分子馬達運動模型,分子馬達定向運動的偶極子模型;最後討論雙頭相互作用的分子馬達模型,內容安排為:先詳細論述模型的構建,再建立langevin方程和fokker - planck方程,接著用差分的方法求解出fokker - planck方程的解,然後分析和研究分子馬達定向運動的機制。
  2. Quantities and units - physical chemistry and molecular physics

    量和單位.物理化學和分子物理學
  3. Quantities and units of physical chemistry and molecular physics

    物理化學和分子物理學的量和單位
  4. Because of the extensive applications of condensed matter in various fields, the investigations on the equation of state of compressed solids are not only necessary in many basic sciences and interdisciplinary areas, e. g. geophysics, planetary science, astrophysics, physics of condensed matter, atomic and molecular physics, thermodynamics, statistical physics, material science etc., but also of important utilized values in the explosive mechanics, energy engineering, aviation technicality and so on applied sciences

    由於固體材料在實際生活、生產中具有的廣泛應用性,這就決定了對固體材料物態方程的研究不僅在熱力學、統計物理學、凝聚態物理、原子與分子物理、地球物理、天體物理、化學物理等基礎學科中是不可缺少的,而且在材料科學、能源工程、爆炸力學、武器物理、宇航技術等應用學科中也具有重要的應用價值。
  5. This article deduces molecular beam ' s momentum distribution function, calculates mean momentum, root mean square momentum and furthorest possible momentum, and compares them with the characteristic physics quantities corresponding to molecular beam ' s speed distribution function one by one

    摘要本文首先推導出分子束的動量分佈函數,然後計算了平均動量、均方根動量和最概然動量,並與分子束的速率分佈函數相應的特徵物理量逐一比較。
  6. It is the underlying mathematical framework of many fields of physics and chemistry, including condensed matter physics, atomic physics, molecular physics, computational chemistry, quantum chemistry, particle physics, and nuclear physics

    它是許多物理學和化學領域的根本數學框架,包括濃縮物質物理學、原子物理學、分子物理學、計算化學、量子化學、粒子物理學和核子物理學。
  7. The isospin effect and k production in intermediate and high energy heavy ion collisions ( hics ) are hot topics in the nuclear physics. based on the isospin - dependent quantum molecular dyanmics ( iqmd ) model and self - consistent relativistic boltzmann - uehling - uhlenbeck ( rbuu ) model, we have studied them and obtained some interesting results. as for the study of isospin in intermediate energy hics, we ' ve investigated how both stength ( q ) and density dependence of symmetry potential ( sp ) affect many measurable observables, such as the yield, phase - space, and isospin distributions of fragments, as well as the correlations between intermediate - mass - fragment ( imf ) multiplicity n and charged - particle multiplicity n, light - charged - particle ( lcp ) multiplicity n, and neutron multiplicity n,

    在中能重離子碰撞的同位旋研究方面,分別研究了對稱勢的強度( c _ s )和其密度依賴形式對中能重離子核反應各類碎片產物產額、相空間、及其同位旋的分佈,中等質量碎片多重數( n _ ( imf ) )與帶電粒子多重數( n _ c ) 、輕帶電粒子多重數( n _ k ) 、中子多重數( n _ n )的關聯等多種實驗觀測量的影響,以獲取對稱勢中該兩方面的信息,尤其著重於研究如何分別獲取有關該兩方面的信息的途徑。
  8. Is a combination of modern science ( chaotic physics, quantum mechanics, mesoscopic physics, molecular biology ) and technology ( computer technology, microelectronictechnique & stm, nuclear analysis technology ). nano - technology will inspire a round of s & t revolution, such as nanomaterial, nanoelectronics, nanomechanics

    納米技術是現代科學(混沌物理、量子力學、介觀物理、分子生物學)和現代技術(計算機技術、微電子和掃描隧道顯微技術、核分析技術)結合的產物,納米技術又將引發一系列的科學技術,例如納米材料學、納電子學、納機械學等。
  9. Use of statistical, quantum chemical, molecular dynamics, monte carlo, mesoscale and continuum methods to study fundamental physical phenomena encountered in the fields of computational physics, chemistry, mechanics, materials science, biology, and applied mathematics

    運用統計、量子化學、分子動力學、蒙地卡羅、介觀尺度和連續介質方法,研究在計算物理、化學、力學、材料科學、生物學及應用數學中遇到的基本物理現象。
  10. Journal of atomic and molecular physics

    原子與分子物理學報
  11. Regarding research direction, in the area of modern medical science, the graduate training develops to upstream specialty basic sciences such as physiology, pharmacology, microbiology and immunology on the basis of biology, chemistry and molecular biology, while in engineering area the graduate studies pursue the advanced applied sciences such as electricity, magnetic, optical science, mechanics and acoustics on the basis of mathematics and physics

    研究方向方面現代醫學教育的多是以生物化學、分子生物學為基礎,向上發展生理、藥理、微免、解剖等基礎醫學專業科目,而工程教育則是以數學、物理為基石,向上發展電學、磁學、光學、力學、聲學等應用科學。
  12. Clusters are the aggregates of a few to thousands atoms or molecules or ions their properties are neither like those for individual atoms nor the corresponding bulk and therefore clusters are named " the fifth state of the matter ". during the development of cluster science, many concepts and methods have been introduced from nuclear physics, condense matter physics and quantum chemistry, cluster science has became an new interdisciplinary field between atomic - molecular physics and condensed matter physics

    團簇( clusters )是由2 104個原子、分子或離子通過物理或化學結合力組成的相對穩定的微觀和亞微觀聚集體,它的空間尺度在幾a至幾百a范圍內,被人們看作是介於原子分子和宏觀固體之間物質結構的新層次,並稱之為物質的「第五態」 。
  13. Atomic and molecular physics

    原子與分子物理
  14. Research for the stability of laser polarizers specialty : atomic and molecular physics postgraduate : zhao yuanan advisor : yang xiangdong with the development of optical film techniques, optical film widgets have been used widely, so researches for the stability of optical film widget is become more and more important

    隨著光學薄膜技術的不斷發展,光學薄膜器件的應用日益廣泛,光學薄膜的穩定性研究也被提到了極其重要的地位。為了解決大功率激光器中激光偏振膜的穩定性問題,本課題從鍍膜材料特性、膜系設計、沉積工藝等方面對這一問題展開了深入的研究。
  15. Because the materials of solid have wide applications in actual life and producing, the study of eos on solids is meaningful in many basic sciences such as thermodynamics, statistical physics, physics of condensed matter, atomic and molecular physics, geophysics, planetary science, chemical physics, etc. in this paper, we discuss the fundamental theory of eos, the relationship between the eos of solids and the mutual effect potential, the theoretical models of eos of solids and some applicable semi - empirical, semi - theoretical eos of solids

    固體材料在實際生活、生產中具有廣泛的應用性,所以,固體物態方程的研究對于熱力學、統計物理學、凝聚態物理、原子與分子物理、地球物理、天體物理、化學物理等基礎學科是有重要意義的。本論文論述了物態方程的基本理論,固體物態方程與粒子間相互作用勢的關系,固體物態方程的理論模型、近似關系和具有實用價值的半經驗、半理論的唯象固體態方程。
  16. The self - assembly of quantum structure is a new science concept, which unifies the chemistry and physics, organic and inorganic, and so on. the process using self - assembly to construct quantum structure in mesoscope will greatly promote the development of integrated circuits, microelectronics, nanoelectronics and further, to molecular electronics. the self - assembly of quantum structure is being one of the hottest fields in solid physics, material chemistry, and nanoscience

    量子結構組裝是一新的科學概念,它統一化學與物理,有機與無機,在介觀尺度上實現集成,它的實現,將會大大地促進納米集成光電子學,納米集成微電子學的發展,是當前固體物理、材料化學中的活躍領域之一。
  17. For example, the application in protein folding in molecular biophysics, protein transport in cell biophysics, electrical neuron systems and ionic channel in neuron biophysics has become one of the important forward subjects hi international theory physics and biophysics

    如在分子生物物理中的蛋白質折疊、細胞生物物理中的蛋白輸運、神經生物物理中的電神經系統,離子通道等等方面的應用成為國際理論物理與生物物理學界研究的重要前沿課題之一。
  18. The essential task of liquid crystal statistical physics is studying macroscopic properties of liquid crystal based on molecular interaction

    從分子間相互作用出發研究液晶的宏觀性質是液晶統計物理學的重要任務。
  19. Quantities and units. part 8 : physical chemistry and molecular physics

    量和單位.第8部分:物理化學和分子物理學
  20. Quantities and units - part 8 : physical chemistry and molecular physics

    量值和單位.第8部分:物理化學和分子物理學
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