Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有团和疏
团而具有两
性。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有团和疏
团而具有两
性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面重参数化方法精
了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲水基团和疏水基团而具有两亲性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面
参数化方法精确求解了两层对称铁磁薄膜中的低能自旋波本
。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有团和疏
团而具有两
性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面重参数化方法精
了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲水基团疏水基团而具有两亲性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界件
在
虑
向异性场的情况下,应用界
重参数化方法精确求解了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其达内容亦不代
本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有基团和疏
基团而具有两
性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面重参数化方法精确
两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲水基水基
而具有两亲性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件在
虑表面各向异性场的情况下,应用界面重参数化
法
确求解了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲团和
团而具有两亲性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面重参
法精确求解了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲水基团和疏水基团而具有两亲。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期条件和在
虑表面各
场的情况下,应用
面重参数化方法精确求解了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎
我们指正。
Lipid bilayer Membrane lipids are amphipathic since they contain both hydriphilic and hydriphibic regions.
脂双层 膜脂因为同时具有亲和疏
而具有两亲性。
A symmetrical ferromagnetic bilayer film is investigated under the nonperiodic boundary condition and considering anisotropic field at two surfaces,by using the rescaling interface approach.
在非周期性边界条件和在虑表面各向异性场的情况下,应用界面重参数化方法
解了两层对称铁磁薄膜中的低能自旋波本征问题。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。