消磁場 的英文怎麼說
中文拼音 [xiāocíchǎng]
消磁場
英文
degaussing field-
Arl began work on developing degaussing systems to neutralize our ships' magnetic fields and thus protect them.
海軍部研究實驗室開始研製消磁系統以抑制我們艦艇的磁場,從而達到保護艦艇的目的。The introduction of the field results in a removal of the degeneracy.
引入磁場,導致了簡並消除。Application improved field elimination method to inverse problem of electromagnetics
應用於電磁場逆問題中的改進區域消除法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。The magnetic fields produced by the orbital motions of the electrons in filled shells also cancel in pairs.
滿殼層中電子的軌道運動所產生的磁場也被成對地抵消了。This paper presents our research in actuating in - vivo micro - robot based on the capsule endoscope platform by the external power. while seeking secure driving method we take several factors into account, such as driving environment, power transmitting and consuming, motion requirement and controllability, and locating technique. we mainly deal with driving the capsule with spatial gradient magnetic field, so we employ combined electro - magnetic coils, including gradient coils and homogenous coils, which have rotational dof around a translatable patient bed, to compose a controllable uniform gradient which act on the permanent - magnet embedded robot, thereby get an appropriate spatial force and torque to fulfill the anticipant locomotion such as move, stop, pitch and yaw
基於驅動環境、能量供給和消耗、驅動動作要求及驅動安全性與可控性,定位方案等多方面考慮,尋求安全可靠的腸胃檢查微機器人的外部驅動控制方法,並著重研究直接利用外磁場磁力驅動微機器人:在微機器人內部嵌入永磁性體,利用體外的組合電磁線圈產生加載電流控制的驅動磁場,其中外部的電磁線圈由多組梯度線圈和勻場線圈組合構成,通過繞病床的旋轉以及病床的平移共同控制微機器人所在位置的磁場強度及梯度,作用於微機器人內嵌磁體以獲得空間意義上的必要驅動力和調整轉矩,從而有效地完成驅動動作要求。When the circuit is opened the magnetic field collapses and this energy is returned to the circuit.
電路斷開后,磁場就消滅了,這種能量就回到電路中。Displays is functioned under the electromagnetic theory and can be easily effect by the magnetic field. however, please notice that most of the speaker has built - in a big magnet which can effect the functioning and level down the quality of the displays. please do not use your monitor when magnets or electronic products such as speakers operating nearby
電腦顯示器是利用電磁原理來運作的,因此磁場干擾的隔離相當地重要,很多消費者都將喇叭放在顯示器兩側,而市面上防磁喇叭的防磁效果不一,因為喇叭後方有個相當大的磁鐵,如果喇叭過于靠近顯示器的話,就會造成干擾的情形,甚至於產生著磁現象而影響畫面品質。Compared with traditional oxygen detection methods, there are several advantages using this sensor : no oxygen consumption and reference electrode are needed ; no electronic current is needed and no disturbances happen if there is a magnetic field outside ; the intensity of the phosphorescence has n ' t relation to the stir and flow rate of the sample ; the response is rapid
與傳統的測氧方法相比,它在測量過程中不消耗氧,不需要參比電極,不用連接電流,不受外界電磁場干擾,與樣品流通速率和攪拌速率無關,響應速度快。因此,近幾十年來,磷光傳感器的研究十分活躍。When the isotropic waveguide is under the isotropic disturbances, the coupling term due to polarization, which is presented in the coupled - mode theory of the wei - ping huang, is n ' t included in this rigorous vectorial coupled - mode theory, exactly, the rigorous vectorial cmt does n ' t contain the coupling term due to polarization which is include in the scalar coupled - mode theory because this term is counteracted with the other coupling term neglected under weakly guiding approximation. as for anisotropic disturbances, we get the coupled - mode equations with arbitrary dielectric tensors. from them, we obtain the coupled - mode equations of the slowly varying term c ( z ) which is more simplicity
當受到各向同性微擾時,我們發現嚴格的矢量理論所得到的耦合系數表達式中並不包括wei - pinghuang的理論中的偏振耦合項,更確切的說,偏振耦合項正好與因弱導近似而忽略的項相抵消,這就是標量理論所得到結果(有偏振耦合項)與矢量理論在標量近似下的結果(不含偏振耦合項)不一致的原因所在;當各向異性微擾時,我們得到了包含微擾介電張量各個分量的橫電磁場耦合波方程,討論了微擾介電張量各個分量對耦合的影響,而且從橫電磁場耦合波方程出發得到了形式更加簡單的只含有橫電場系數的緩變分量c _ ( z )的耦合波方程和耦合系數表達式,並以弱導近似下的單模光纖兩正交偏振模耦合為例對耦合系數在不同條件下的取捨做了定性的分析。In order to improve the quality of the voltage signals, this paper has adopted the scheme of three phases and six organs in signal - generator part, which can eliminate the errors caused by the assembly warp and the zero shift of organs. this paper also has analyzed the distribution and varying rules of the magnetic field in the signal - generator part, then based on the conclusion of the analysis improved the structure of signal - generator, which could completely eliminate the noise signal caused by the roughness of the face on the magnetic steel ring. the improvement not only met the requirement of this study, but established the theory foundation for the super - high precision magnetic encoder in future research
因此,為提高原始電壓信號的質量,本文採用三相六元件的信號發生方案,通過差分處理濾除了由於裝配偏差和零點漂移帶來的信號誤差;本文對編碼器信號發生結構進行了磁場分析,依據磁場分析的結論對編碼器常用的信號發生結構進行了改進,改進后的結構利用積分原理在理論上能夠完全消除信號中由磁鋼環表面粗糙度引起的信號噪聲,進一步提高了信號質量,此結構不僅滿足了本課題的需要,而且為今後研製超高精度的磁電式編碼器奠定了理論基礎。But rather than extinguishing the magnetic field completely, the reversed flux patches created a weak field with a complex mix of polarities during the transition
但在過渡期間,這些反向通量斑塊並不會完全消除磁場,而是形成一個綜合了復雜極性的微弱磁場。Abstract : this article analyzes the reason and influence of magnetic blow on welding arc during the welding process. through the adjusting and improving of the magnetic field distribution, adopting the anti - magnetic erasing method to eliminate the influence of magnetic blow for welding arc
文摘:分析了磁偏吹在焊接過程中對焊接電弧的影響以及產生原因,通過調整和改善焊接電弧周圍磁場分佈,並採用反消磁法,克服和消除了磁偏吹對焊接電弧的影響。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,從解析形式和數值模擬兩個方面給出了-磁鐵的磁場分佈,對單個粒子在-磁鐵中的運動進行了分析,利用數值求解方法研究了帶電粒子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軌道等物理概念,定量給出了消色散的入射角、軌道長度和x方向最大距離的解析表達式。Integrated fire control equipment meets the requirements of gb16806 - 1997. the test items include electrical transient bursts, electrostatic discharge, and radiated electromagnetic fields
消防聯動控制設備應符合gb16806 - 1997標準的要求。檢測項目有:靜電放電;輻射電磁場;電快速瞬變脈沖群。And we test how the laser ' s intensity changes with time through six kinds of cofe2o4 ionic magnetic fluid when laser has the same direction as the magnetic field ( be perpendicular to the magnetic fluid film )
用相消法設計了測試磁光效應一一透射光強的裝置,測試了光線與外磁場方向一致(都垂直於磁性液體薄膜)的情況下,透過六種cofe 。 0 。By calculating the feynman diagram in rtf, we find that when taking into account both the thermal photon emission, absorption and the virtual photon exchange processes, the infrared divergences at zero and finite temperature can be cancelled at the same time. the full quantum calculation results for soft photon radiation coincide completely with the poisson distribution obtained in the semiclassical approximation ( the coupling of the classical current and quantized field )
通過實時溫度場論下的費曼圖計算,我們得到:將實光子的發射、吸收,虛光子的交換過程同時考慮時,零溫場論中出現的和由溫度效應引起的紅外發散都能得到消除;並且完全量子場論下的軟光子輻射幾率與半經典近似下(經典的電流和量子化的電磁場之間的耦合)得到的泊松分佈結果完全一致。Once the field is larger than the threshold field, the molecules of liquid crystal tend to the magnetic field direction and they will align to the magnetic completely under some conditions i. e. it is saturated so it is important to calculate the threshold and saturation field
在平衡狀態下,兩個轉矩的作用相互抵消。一旦磁場強度超過一定的閾值,液晶內部的分子將更易於沿外磁場方向的排列。一定條件下分子完全沿磁場排列,即達到飽和。In this paper, based on analysis the distributing rule of permanent magnetic field, a novel method for dynamic tracing micro drug delivering device in alimentary canal has been proposed
本文在分析永磁體空間磁場分佈規律的基礎上,提出了利用磁定位原理實現動態跟蹤微型藥物釋放裝置在消化道運動狀態的方法。Because of the complexity and particularity of evanescent waves, a pure theoretical treatment can only provide a qualitative description, a well - developed 3d em code, sos6 which is based on the magic command language with the finite difference time domain method, is used to simulating the em evanescent waves in this article
由於消失波的復雜性和特殊性,難已進行解析理論分析,為此,本論文採用基於時域有限差分方法的3d電磁場分析軟體對消失波的特性進行模擬分析。分享友人