dmss

Therefore , it is very important to understand the origin of ferromagnetism in DMSs .

因此深入探讨稀磁半导体中的铁磁性来源至关重要。

For practical applications , ferromagnetic DMSs with Curie temperatures TC greatly exceeding room temperature is required .

为了能实际应用，必须要获得居里温度在室温以上的铁磁性稀磁半导体。

Only DMSs access data sources , SDO applications do not .

只有DMS访问数据源，SDO应用程序不访问数据源。

DMSs get their information from various data sources using various data access APIs ( JDBC , SQL , etc. ) .

DMS使用不同的数据访问API（JDBC、SQL等）从不同数据源获取的信息。

To update backend data sources , DMSs should use the powerful features of SDO , more specifically its change summary .

DMS应该使用SDO的强大特性更新后端数据源，具体地说，就是要使用其变更摘要。

Diluted Magnetic Semiconductors ( DMSs ) are of great interest due to their potential application both charge and spin of electrons .

稀磁半导体（DMS）能够实现电荷和自旋的同时操纵，可以极大地提高磁存储的传输速率，因而受到了广泛的关注。

Change summaries provide methods for DMSs to turn logging on and off , as we 'll describe in more detail in the sample application section .

变更摘要提供了让DMS打开和关闭日志功能的方法，后面的例子中还将详细对其进行介绍。

Diluted magnetic semiconductors ( DMSs ) are a new type of semiconductor material formed by substituting magnetic metal ion for nonmagnetic ion .

稀磁性半导体（DMS）是指在半导体化合物中，由磁性过渡族金属离子部分替代非磁性离子所形成的一类新型半导体材料。

Dilute magnetic semiconductors ( DMSs ) have attracted much interest due to their favorable magnetic and semiconducting properties for application of spin-dependent electronic devices .

同时具有磁性和半导体性的稀磁半导体材料，由于其在自旋电子学器件中的潜在应用，所以引起了人们的极大关注。

In recent years , many groups have begun the research on diluted magnetic semiconductors ( DMSs ): ZnO doped transition-metal , due to the potential applications .

由于稀磁半导体（DMS）潜在的应用前景，近年来许多研究小组开始了对过渡金属（TM）掺杂ZnO形成稀磁半导体的研究。

Data mediators services ( DMSs ) are responsible for creating a data graph from data source ( s ), and updating data source ( s ) based on changes made to a data graph .

数据中介服务（DMS）负责从数据源创建数据图、依据数据图的变化更新数据源。

As one of the most potential candidates for these spin-based electronic devices , GaN-based diluted magnetic semiconductors ( DMSs ) have been attracting extensive interests .

GaN基稀磁半导体是实现自旋电子器件最有前途的候选材料之一，受到了广泛关注。

DMSS is based on media file system ( MFS ), which is designed by the characteristics of multimedia files . In DMSS , replication servers are built automatically to improve QoS and reduce network bandwidth consumption .

系统以按多媒体文件特征设计的高效媒体文件系统（MFS）为基础，通过自适应创建资源副本服务器来保证服务质量，降低网络带宽消耗。

We can conclude that oxygen vacancies and the concentration of defects are the main origin of the ferromagnetic in V-ZnO DMSs , and the specific mechanism of magnetic can be explained by BMPs model .

我们认为样品中的铁磁性来源主要是由氧空位和缺陷态密度引起的，具体磁学机理可以用束缚磁极化子模型来解释。

In order to improve quality of service ( QoS ) of accessing the multimedia resource in wide area network ( WAN ), a high performance distributed media storage system ( DMSS ), which is suitable for media resource storage on WAN is designed .

针对广域网上多媒体资源访问服务质量问题，设计一种面向媒体资源的高性能分布媒体存储系统（DMSS）。

Recently , Diluted Magnetic Semiconductors ( DMSs ) doping by non-magnetic element have been gradually attracted much attention , which can be averted the origin of magnetic mechanism for DMSs doping by rare earth element or transitional element .

最近，对非磁性元素掺杂稀磁半导体的研究逐渐引起人们的关注，从而避免了稀土元素或过渡元素作为掺杂的稀磁半导体磁性来源的问题。

The method starts with difference between uplink and downlink signal delay to analyze how to increase timing precision , and applies Bayesian approach to compute satellite clock bias so as to calibrate it when DMSS is on orbit flying .

该方法以星间链路的上、下行信号传输延迟时间差为出发点进行分析以改善同步精度，并用贝叶斯估计对在轨运行的DMSS星间钟面差进行计算并校时。

Diluted magnetic semiconductors ( DMSs ) is a new type of functional materials , which can be obtained by using a small amount of magnetic transition metal elements or rare earth elements to replace the cations in the non-magnetic semiconductor materials ( usually AB type ) .

稀磁半导体（DMSs）是指在非磁性半导体材料基体（通常是AB）中通过掺入少量磁性过渡族金属元素或稀土金属元素使其获得铁磁性能的一类新型功能材料。

Diluted magnetic semiconductors ( DMSs ), i.e. , semiconductors doped with magnetic metallic elements , have been the frontier research objects in the field of condensed state physics and material science because of the possibility of assembling charge and spin degrees of freedom in a single substance .

在半导体中引入磁性金属元素而形成的稀磁半导体材料因其能将自旋和电荷两个自由度集于一身，已经成为最近几年来凝聚态物理和材料科学领域中最前沿的研究对象。