軌道量子數 的英文怎麼說

中文拼音 [guǐdàoliángzishǔ]
軌道量子數 英文
associated quantum number
  • : Ⅰ名詞1. (路軌;軌道) rail; track 2. (比喻辦法、規矩、秩序等) rut; path; course Ⅱ動詞[書面語] (遵循; 依循) follow
  • : Ⅰ名詞(道路) road; way; route; path 2 (水流通過的途徑) channel; course 3 (方向; 方法; 道理) ...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • : 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...
  • : 數副詞(屢次) frequently; repeatedly
  • 軌道 : 1 (供火車、電車等行駛的由條形鋼材鋪成的路線) track; pathway; rail; runway; circle; railway 2 (...
  • 量子 : quantum; gion
  1. Based on the hmiltonian expression for hydrogen atom in combination with the theory proposed, the theoretical values of the hydrogen atom ' s energy, ground state energy and spectrum constant and the electron orbital angular momentum are given

    根據氫原哈密頓表示,結合創新的算符代理論,得到氫原的能、氫原的基態能、電角動、氫原的光譜常等各種物理的理論值。
  2. Its main contributions include the following several aspects : firstly, the dissertation constructs the mathematic model of short baseline orientation determination using two geostationary satellites and analyses the applicable conditions of carrier phase interferometry. orientation determination precision is analysed in depth through both the conventional linearized method and monte - carlo computer simulation method, and the mathematical simulation results show that the linearized method has the shortcoming of fairly low elevation error analysis precision in high latitude area so as not to be very appropriate there. by analyzing the definite factors influencing orientation precision, the dissertation develops the concept of orientation dilution of precision, which uncovers the internal cause of exotic error behavior of bi - satellite orientation, and has important guiding significance for practical engineering applications

    本文系統地研究了基於「北斗一號」衛星載波相位干涉測原理實現地球靜止雙星定向的相關技術,主要研究成果包括以下幾方面:首先,建立了利用兩顆地球靜止衛星進行短基線定向的學模型,分析了載波相位干涉測的適用條件;採用傳統的線性化解析法及蒙特卡洛隨機模擬法兩種途徑對雙星定向的精度進行了詳細分析,學模擬結果表明在高緯度地區線性化解析法由於俯仰角誤差分析精度略有下降而不太適合;在分析定向精度確定性影響因素的基礎上,提出了雙星定向精度衰減因odop的概念,揭示了雙星定向誤差特殊表現的內部機理,對實際工程應用具有重要的指導意義。
  3. A method is proposed to construct a localized active functional space from the density matrix of a large system. the large system is partitioned into central and surrounding areas. the active functional space is mainly localized on the central area. it contains all basis functions centered at the central area and all the orbitals which consist of the basis functions localized in the surrounding area and interact with the basis functions in the central area to a certain extent. an integral number of electrons are involved in the localized active functional space which can be considered as a relatively independent subsystem in the large system and for which formally isolated quantum chemical calculations can be performed. the related program has been coded and is checked through calculating the number of 4

    了從大體系的密度矩陣出發構造定域于指定局部的活性泛函空間的方法和程序。將大體系劃分為中心區和環境區,活性泛函空間包含中心區的基函及與其有相互作用的環境區,容納整個電,構成大體系的一個相對獨立的體系,可以在其中進行獨立的化學計算。通過計算鑭系氯化物和水合離的4
  4. The magnetic distribution of a - magnet is presented by analytic way and numeric simulation way. the single particle movement is studied in a - magnet and the movement rule of charged particle in ideal four poles magnetic field also is obtained. quantificational results of the incidence angle, trajectory length and the maximal distance in x direction are presented for ideal trajectory, and the equation indicates some important characters of a - magnet

    論文對-磁鐵的有關物理問題進行了較為詳細的論述,從解析形式和值模擬兩個方面給出了-磁鐵的磁場分佈,對單個粒在-磁鐵中的運動進行了分析,利用值求解方法研究了帶電粒在理想四極磁場中的運動規律,提出了歸一化運動方程和理想等物理概念,定給出了消色散的入射角、長度和x方向最大距離的解析表達式。
  5. Based on the hydrodynamic, by using momentum theory to the liquid in the flow channel, the computational formula of the air exciting - vibration force is acquired. by using four - step runge - kutta method, the periodic response results of the elastic rotor system with one single - disc are gained. then the dynamic characteristics of the rotor system at the certain rotate speed and the certain physic parameter of system are analyzed by using the phase spaces and poincare maps of this system

    基於流體動力學,通過對葉片流內的流體模型應用動定理,得到此汽流激振力模型,並採用四階龍格庫塔法,得出了單盤彈性轉系統的周期響應規律,然後根據系統的相跡及poincare映射圖,分析了系統在特定轉速及特定的轉系統參下的運動特徵。
  6. In this application, the lorentz force generated by the interaction between the current in the wire and the geomagnetic field produces an electro - dynamic drag leading to a fast orbital decay. in this paper, we make an intensive study of the process of de - orbiting using electro - dynamic tether system. the concrete work includes : firstly, i have studied the basic principle of how to generate the electro - dynamic drag, modeled via accuracy geomagnetism, made a concrete analysis of the de - orbiting duration, the magnitude and direction of electro - dynamic drag under the action of the dipole and accurate geomagnetic models, set up a counterbalance between electro - dynamic torque and gravity gradient torque, emulate the de - orbiting process of spacecraft, and compared the change of six orbital factors and the de - orbiting duration under the action of the dipole and accurate geomagnetic models

    本文對基於電動力纜繩的航天器離過程進行了深入研究,具體工作如下:首先,本文研究了電動力纜繩產生電動力拉力的基本原理,建立了精確地磁場模型;分別在偶極模型和精確地磁場模型作用下,對電動力拉力的大小、方向、離時間及電動力纜繩傾角的大小進行了計算分析;建立了電動力力矩與纜繩系統重力梯度力矩的平衡關系;分析了電動力力矩為系統提供能的原理;最後分別在偶極地磁場模型和精確地磁場模型作用下,對受電動力纜繩作用的航天器的離過程進行模擬,分析了在不同精度地磁場模型下,航天器離過程中各的變化情況,並比較了不同模型對離時間的影響。
  7. Under the laws of quantum mechanics, the nuclei of atoms have shell - like structures analogous to the spheres in which given numbers of electrons exist in certain orbits around the nucleus

    根據力學的法則,核外部一定目的核外電以一定的圓周運行形成球狀殼結構。
  8. Quantum mechanics uses complex number wave functions ( sometimes referred to as orbitals in the case of atomic electrons ), and more generally, elements of a complex vector space to explain such effects

    力學用復波功能(有時指內的原) ,而更通常用復向空間原理來解釋這類作用。
  9. The use of wave packet to analyze the dynamics of quantum mechanical systems is an increasingly important method to the study of the classical - quantum correspondence. using the quantum gaussian wave packet analysis method, we calculate the autocorrelation function of the rectangular billiard, the peak positions of the autocorrelation function match well with the periods of the classical periodic orbits, which show that the period of the classical orbits can be produced by the time - dependent quantum wave packet method. we also discuss wave packet revivals and fractional revivals in the rectangular billiard, the results show that there are exact revival for all wave packet at each revival time. we find additional cases of exact revivals with short revival times for zero - momentum wave packets initially located at special symmetry point inside the billiard

    利用波包分析力學體系的動力學行為在研究經典和的對應關系方面越來越成為一個非常重要的方法.利用高斯波包分析方法,我們計算了矩形彈球體系的自關聯函,自關聯函的峰和經典周期的周期符合的很好,這表明經典周期的周期可以通過含時的波包方法產生.我們還討論了矩形彈球的波包回歸和波包的部分回歸,計算結果表明在每一個回歸時間,波包出現精確的回歸.對于動為零的波包,初始位置在彈球內部的特殊對稱點處,出現一些時間比較短的附加的回歸
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