1) colossal magnetoresistance effect
超大磁阻效应
2) colossal magnetoresistance
超大磁电阻效应
1.
Since the discovery of colossal magnetoresistance effect (CMR) in perovskite manganites, it has sparked considerable renewed interests in these long-known materials with an eye towards both an understanding of the CMR and related properties and potential applications in magnetic information store and low-field magnetic sensors.
以钙钛矿结构氧化物为代表的巨磁电阻材料,由于它们所表现出来的超大磁电阻效应(Colossal Magnetoresistance)在提高磁存储密度及磁敏感探测元件上具有十分广阔的应用前景,因而受到人们的广泛关注。
2.
Recently, since the discovery of colossal magnetoresistance effect (CMR) in perovskite manganites, it has sparked considerable renewed interests in these long-known materials with an eye towards both an understanding of the CMR and related properties and potential applications in magnetic information store and low-field magnetic sensors.
近年来,以钙钛矿结构氧化物为代表的巨磁电阻材料,由于它们所表现出来的超大磁电阻效应(Colossal Magnetoresistance)在提高磁存储密度及磁敏感探测元件上具有十分广阔的应用前景,因而受到人们的广泛关注。
3.
Since the discovery of colossal magnetoresistance effect (CMR) in per-ovskite manganites, it has sparked considerable renewed interests in these long-known materials with an eye towards both an understanding of the CMR and related properties and potential applications in magnetic information store and low-field magnetic sensors.
以钙钛矿结构氧化物为代表的巨磁电阻材料,由于它们所表现出来的超大磁电阻效应(Colossal Magnetoresistance)在提高磁存储密度及磁敏感探测元件上具有十分广阔的应用前景,因而受到人们的广泛关注。
3) Colossal Magnetoresistance (CMR) Effect
超大磁电阻(CMR)效应
4) colossal magnetoresistance(CMR)
超大磁电阻效应(CMR)
5) CMR effects
大磁阻效应
6) magnetoresistance effect
磁阻效应
1.
This paper introduces the principles of several magnetoresistance effects in details.
对几种磁阻效应作用机理和磁阻元件在传感器中的应用进行了综述,详细介绍了几种磁阻传感器的工作原理,对几类常用的磁阻传感器的性能进行了比较,并对磁阻传感器的发展进行了展望。
2.
It is shown that there exists a significant transmission difference for electrons through parallel and antiparallel magnetization configurations,which leads to a considerable magnetoresistance effect.
由于电子通过器件的平行和反平行磁化构型的透射几率显著不同,因而该器件拥有相当的磁阻效应。
3.
Using the divalence element Sr to replace the position of La in LaMnO 3 materials, La 1-x Sr x MnO 3 materials has been successfully prepared with excellent single phase and distorted perovskite structure and magnetoresistance effect.
利用二价金属元素Sr 对LaM nO3 材料进行了La 位替代,成功地制备了单相性好、具有扭曲钙钛矿结构和磁阻效应的La1- x Srx M nO3 材料。
补充资料:卵巢癌的大剂量和超大剂量化疗
卵巢癌的大剂量和超大剂量化疗
此法系指把化疗的剂量强度提高到一个新的“极限”。主要的理论根据是目前的化疗可达到3~4个对数杀灭,已接近完全杀灭,如再增加几个对数杀灭,就有可能对许多病人达到治愈的疗效。超大剂量化疗则可获得5~7个对数杀灭,并对部分耐药肿瘤细胞有效。在卵巢癌超大剂量化疗时,可增加到第3剂量级,如卡铂为1200~1500mg/m2,环磷酰胺3.5~4.0g/m2,在这样大的剂量时,病人的骨髓抑制毒性很严重,需要支持治疗。支持疗法有①自身骨髓移植;②自身外周血造血干细胞移植和③促粒细胞生长因子应用。目前较易被人接受并且较易施行的支持疗法是自身外周血造血干细胞移植和促粒细胞生长因子的使用。大剂量化疗时,化疗药是常规用药量的2~3倍,骨髓抑制毒性的支持疗法常为促粒细胞生长因子治疗。超大剂量化疗时,化疗药是常规用药量的4~5倍,而骨髓抑制毒性的支持疗法是自身外周血造血干细胞移植和促粒细胞生长因子的联合使用。
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