1) submicrometer sphere
亚微米球体
2) sub-microspheres
亚微米球
1.
MoO2 sub-microspheres were synthesized with(NH4)6Mo7O24·4H2O and HCl as the starting materials and CTAB as a protective agent and ethanol acting as reducing agent.
以钼酸铵和盐酸为原料,CTAB作为结构导向剂,利用乙醇作溶剂和还原剂,通过水热法制备了MoO2亚微米球。
4) sub-micron and micron particle
亚微米和微米球
1.
From observation of scanning electron microscopy(SEM) and transmission electron microscopy(TEM),we found that these sub-micron and micron particles are self-assembled by nano-particles with sizes of 10-20nm.
5H2O为镉源和硫源,在相对低的温度(100℃)下水热合成了CdS亚微米和微米球。
5) Microsphere with submicrometer size
亚微米级微球
6) sub-micron powder
亚微米粉体
补充资料:空心超导球体(hollowsuperconductingsphere)
空心超导球体(hollowsuperconductingsphere)
设内外半径分别为r1和r2(r1≤r≤r2),壁厚d=r2-r1的第一类超导体的空心球体处于外磁场强度H0中。令ζ=r/δ,Δ=d/δ,δ=δ0/ψ,δ0为大样品弱磁场穿透深度,ψ是有序参量。设H1和M分别是空腔中磁场强度和样品磁矩。按GL理论,徐龙道和Zharkov给出的部分主要结果如下:
`\zeta_1\gt\gt1`和$\Delta\gt\gt1$时,
H1=6H0ζ2ζ1-2e-Δ,
M=-H0r23(1-3δ/r2)/2
所以对厚壁样品,腔内H1≈0,只要H0低于临界磁场,球壳层可视为磁屏蔽物,样品可利用为磁屏蔽体。对$\zeta_1\gt\gt1$和$\Delta\lt\lt1$的情形,则
H1=H0/(1 ζ1Δ/3),
M=-H0r23[1-1/(1 ζ1Δ/3)]/2
可见,若$\zeta_1\Delta\gt\gt1$,则$H_1\lt\ltH_0$或H1≈0。所以,虽然$d\lt\lt\delta$,但磁场仍被屏蔽而很难透入空腔,称ζ1Δ/3为空心超导球体的屏蔽因子。相反,$\zeta_1\Delta\lt\lt1$,则H1≈H0,球壳层几乎不起屏蔽磁场的作用。对M讲,也可作同样讨论。此外,类似于实心小样品,也可求出各种临界磁场HK1,HK,HK2和临界尺寸等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条