1)magnon['m?ɡn?n]磁子
2)magnetic particle磁粒子,磁粉
3)single-molecle magnets单分子磁子
4)Molecular magnet分子磁体
1.Synthesis and characterization of molecular magnet constructed from _3 and ClO_4;以[NEt_4]_3[Fe(CN)_6]和[Mn(Ⅲ)(SB)S_1S_2]ClO_4为单元的分子磁体的合成和表征
2.Quantum tunneling and macroscopic quantum effects in molecular magnets;分子磁体中的量子隧穿及宏观量子效应
3.First-principle Studies the Property of the Diluted Magnetic Semiconductors Doped with Ca、Ti、C and the Binuclear Manganese Molecular Magnet钙、钛和碳掺杂的稀磁半导体及双核锰分子磁体性质的研究
英文短句/例句
1.Quantum Transport Through a Single-molecular Magnet Coupled to the Ferromagnetic Leads单分子磁体耦合铁磁电极的量子输运
2.The studies on single-molecular magnets( SMM's) are in the interface between molecule-based magnets and nanoscale magnetic materials.单分子磁体是介于分子基磁体和纳米磁性材料的学科交叉点。
3.Study of Macroscopic Quantum Effect in Ni_4 Molecular Magnets分子磁体Ni_4宏观量子效应研究
4.Magnetic Properties of Molecular Magnets Based on Multi-metal Complexes by Cyanides;氰根桥联多金属配合物分子磁体的磁性研究
5.The Acoustic Wave Propagation in Molecular Magnets via Electromagnetically Induced Transparency;电磁诱导透明效应对分子磁体中声波的影响
6.Synthsis、Structure and Magnetic Propertites of Metal Coordination Complexes Molecular Magnet;金属配合物分子磁体的合成结构与磁性研究
7.Magnetic Properties of Molecular Magnets Based on Metal Complexes by Oxalates草酸根桥联金属配合物分子磁体的磁性研究
8.In this paper, several kinds of and their magnetic characterization are reviewed.本文就单分子磁体的研究背景和意义、分子磁体的种类、构及磁学表徵作一概述。
9.First Principle Studies on Several Molecular Magnets and Magnetic Strong-Correlation Systems;若干分子磁体及磁性强关联体系的第一性原理研究
10.First-principle Studies the Property of the Diluted Magnetic Semiconductors Doped with Ca、Ti、C and the Binuclear Manganese Molecular Magnet钙、钛和碳掺杂的稀磁半导体及双核锰分子磁体性质的研究
11.Preparation, Characterization and Structure Transformation Analysis of Single Molecular Magnets;单分子磁体的制备、表征及结构转变分析
12.Studies on Electromagnetic Properties and Application of Polymer Magnet/ Inorganic Composites;高分子磁体/无机物复合材料的电磁性能与应用研究
13.Construction and Magnetic Property of the Molecular Magnet using (NEt_4)_3Fe(CN)_6 as the Building Block;以(NEt_4)_3Fe(CN)_6为组装单元的分子磁体的构建及磁性研究
14.Magnetic Properties and M(?)ssbauer Spectroscopy Investigations of Prussian Blue Analogs;普鲁士蓝类分子磁体的磁性及穆斯堡尔谱学研究
15.SO-FDTD analysis of EM scattering of magnetized ferrite磁化铁氧体电磁散射的移位算子FDTD分析
16.The fundamental magnetic entities are magnetic dipoles.基本的磁体是磁偶极子。
17.Typical Polymers Studied by Solid-State NMR;典型高分子材料的固体核磁共振研究
18.DMRG Studies on Quasi-one Dimensional Molecule-based Magnet;DMRG在准一维分子基磁体中的应用
相关短句/例句
magnetic particle磁粒子,磁粉
3)single-molecle magnets单分子磁子
4)Molecular magnet分子磁体
1.Synthesis and characterization of molecular magnet constructed from _3 and ClO_4;以[NEt_4]_3[Fe(CN)_6]和[Mn(Ⅲ)(SB)S_1S_2]ClO_4为单元的分子磁体的合成和表征
2.Quantum tunneling and macroscopic quantum effects in molecular magnets;分子磁体中的量子隧穿及宏观量子效应
3.First-principle Studies the Property of the Diluted Magnetic Semiconductors Doped with Ca、Ti、C and the Binuclear Manganese Molecular Magnet钙、钛和碳掺杂的稀磁半导体及双核锰分子磁体性质的研究
5)magnetic particle磁性粒子
1.Development in absorbing wave composite of conductive polymers and magnetic particles;导电聚合物与磁性粒子复合吸波材料的研究进展
2.In order to improve the particle size and increase the saturation magnetization of Fe_3O_4 magnetic particle, NaNO_3, NaClO_3 and KMnO_4 are applied to oxygenate Fe(OH)_2, instead of air.在以沉淀氧化法制备不同粒径大小、高比饱和磁化强度的Fe3O4磁性粒子过程中,用NaNO3,NaClO3和KMnO4代替传统的空气作氧化剂氧化Fe(OH)2。
3.A magnetic particle second antibody (MSA I) was prepared by means of immobilizing donkey anti rabbit antiserum on Fe 3O 4 particles 10.8nm±34%的Fe3O4粒子作磁性载体,物理吸附驴抗兔抗血清制备了磁性粒子第二抗体(MSA-I)。
6)molecular magnetism分子磁性
1.In the past several decades, molecular magnetism has been developing so fast and has become a newly arisen front study realm.近几十年来,分子磁学发展迅猛,已成为一个新兴的前沿研究领域,在本论文中,我们选取了三种分子磁性材料,对其磁学性质分别进行了研究。
2.In the past several decades,molecular magnetism has been developing so fast and has become a newly arisen front study realm.分子磁性理论是解释与分子磁性有关的各种物理和化学现象以及合理合成新型分子磁性材料的基础,是理论化学的一个前沿课题。
延伸阅读
磁子磁子Magneton 磁子(magneton) 磁子是用于原子、分子或原子核这类磁体的磁矩单位。参阅“磁矩,,(magnetie moment)条。 玻尔磁子产:的数值等于电子的经典磁矩,理论上可用式 eh,______.______、产月=产。=言二二=气U·日艺丫J乃士U .uUUU乙) ‘介‘‘Xl。一2“尔格/奥斯特(1)来计算,式中。和m分别为电子的电荷和质量法是普朗克常量除以2二,‘是光速。对自由电子磁矩的一个协调一致的相对论性处理表明,经典计算还必须加以修正,因而电子磁矩大约比脚要大0.1%.关于电子磁矩的广泛讨论可参阅“电子自旋”(e lectronspin)条。原子或分子的磁矩是由原子中电子的轨道角动量和电子本身的角动量(起因于电子自旋)两者的贡献产生的。当比较原子的某些组合时,它们的磁矩呈现出简单的比率。由于观察到了这个事实,便导致建立在纯实验基础上的、作为这些磁矩的单位的外斯磁子的定义(早于玻尔磁子),其值由下式给出: 产。=0.1853只10一20尔格/奥斯特。(2) 玻尔磁子中的m代以质子质量即是核磁子;因此核磁子比玻尔磁子要小1836.31倍。核磁子并不是核磁矩值的一级近似;就质子而论,它的磁矩大约为核磁子的3倍。介子流效应是引起这个差异的原因,也是下列事实的原因,即没有净电荷的中子却具有与质子磁矩相同数量级的磁矩(不过符号相反),关于中子磁矩的讨论可参阅“中子”(neutron)、“核矩”(nuelear moments)条。 〔小赫尔(M.A.H.Hull,Jr.)撰]
