量子干涉

可以认为ACStark分裂的产生是多通道量子干涉的结果。

The generation of ac Stark splitting is the result of the multi channel quantum interference .

强THz场下半导体中动力学量子干涉的控制

Control of Dynamic Quantum Interference in Semiconductors Irradiated by an Intense THz Laser

V型三能级原子系统与双激光场相互作用的量子干涉效应

Quantum Coherence Effect Induced by Two Lasers in V-Shaped Three-Level System

研究了两个自发辐射路径之间的量子干涉效应对V型三能级原子压缩谱和光子反聚束效应的影响。

Phase-dependent squeezing spectrum and photon antibunching of resonance fluorescence from a three-level V-type atom driven by a coherent field are investigated .

SQUID的最大超导电流与磁通φL的关系&量子干涉效应。

SQUID and magnetic flux φ _L & quantum interference effect .

利用X射线衍射（XRD）和超导量子干涉仪（SQUID）研究了不同溅射时间对薄膜的结构及磁性性能的影响。

The structural and magnetic properties of the films were characterized by X-ray diffraction ( XRD ) and superconducting quantum interference device ( SQUID ) .

通过使用超导量子干涉仪SQUID进行变温分析，在所分析范围内M-T曲线存在拐点，但其所对应的铁磁性转变温度低于室温。

The ferromagnetic transition temperature was analyzed through M-T curve with SQUID .

约瑟夫森结是超导电子学的关键元件，是超导量子干涉仪（SQUID）和其它许多超导器件的基础。

Josephson junctions are the key elements of superconducting electronics and the bases of SQUID and other superconducting components .

使用这种技术调整dcSQUID的临界电流，在77K观察到了量子干涉现象。

The critical current of the DC SQUID was optimized through this technique and quantum interference effect was observed at 77K .

co（a~1∏～e~3∑~-）混合激发态碰撞传能过程的量子干涉效应&跃迁振幅和相位角的时间特性

Quantum Interference in Collision-induced Energy Transfer Within CO ( A ~ 1 Π~ e ~ 3 Σ ~ - ) Mixed States & Temporal Behavior of Transition Amplitude and Phase Angle

方法：通过50年的临床实践并应用超导量子干涉仪（SQUID）等进行检测及科学分析。

Methods The authors clinical practice of50 years were summarized , and examined and analyzed by using SQUID and other tests .

采用黄金定则方法和Kane六能带模型，分析了半导体中的量子干涉控制光生电流效应。

Quantum interference control photocurrent in bulk semiconductors is analyzed using the Fermi golden rule and Kane six-band model .

研究者同时利用磁场测量的“金标准”&超导量子干涉器件（SQUID）对心跳信号进行了记录。

The same signals were recorded using the " gold standard " for magnetic measurements , a SQUID ( superconducting quantum interference device ) .

超导量子干涉器（SQUID）是以约瑟夫森结为核心元件的极其灵敏的磁通-电压转换器。

A superconducting quantum interference device ( SQUID ) is an extremely sensitive flux-to-voltage transducer with one or two Josephson junctions as its key elements .

借助于光场Q函数的分支结构在相空间的量子干涉，对场熵特性的物理机制作出了解释。

With the help of quantum interference in phase space between two part of the bifurcation of the Q function of the field , the physical mechanism of properties of the field entropy are explained .

系统将为超导量子干涉器（SQUID）在弱磁场测量中的应用提供良好的信号采集、处理与分析手段。

The system can provide good tools for data acquisition , processing and analysis for superconducting quantum interfere device ( SQUID ) used in weak magnetic field detection .

电磁感应透明（EIT）效应是物理学中光与原子相互作用中的一个重要研究方向，它是由于量子干涉效应导致的一个新的物理现象。

The electromagnetically induced transparency ( EIT ) induced by quantum interference in the interaction between light and atoms is one of important field in quantum optics .

超导量子干涉器件（SQUID）磁强计在测量这样极低的磁信号方面具有无可替代的作用，它是目前探测磁场最灵敏的器件。

Superconducting quantum interference device ( SQUID ) magnetometer has an irreplaceable role in measuring very low magnetic signals , it is the most sensitive devices for detecting magnetic field .

SQUID的量子干涉效应，将电子对波函数代入在磁场中运动的几率流密度公式，得到在D。

SQUID . Substituting the formule of the probability current density with the electron-pair wave function , this paper obtains the relation between the magnetic flux of the loop in D.

而约瑟夫森结是超导电子学的关键元件，是超导量子干涉仪（SQUID）和其它超导器件的基础，所以研究约瑟夫森结的性质对超导的发展及其应用有相当重要的意义。

Josephson junctions are the key elements of superconducting electronics and the bases of SQUID and other superconducting components , so it is very important to research the characteristics of Josephson junctions .

我们建立了一套基于高温超导量子干涉仪（SQUID）的可靠的、经济型的单通道心磁图（MCG）系统，该系统在一个简易的磁屏蔽室（MSR）中运行。

We have constructed a reliable and economical single-channel magnetocardiogram ( MCG ) system based on high-T_c SQUIDs operated in a simply magnetically shielded room ( MSR ) .

本论文论述了直流超导量子干涉器（dc-SQUID）的基本物理原理。

In this thesis , we describe the basic physical principle of direct current superconducting quantum device ( dc-SQUID ) .

Fano效应是物理学领域中一种熟为人知的效应，主要出现在光学和凝聚态物理中，来源于共振过程和非共振过程之间的量子干涉。

Fano effect is well known in optics and condensed matter communities . It arises from quantum interference between resonant and non-resonant paths .

YBCO高温超导薄膜在红外探测器、量子干涉器等众多领域有非常广阔的应用前景，目前制备这种薄膜的主要方法有磁控溅射，激光脉冲沉积等。

YBCO high temperature superconductor film holds great promise for applications in infrared detector , quanta interferometer and so on . Presently the main methods of preparing YBCO films have magnetron sputtering and laser deposition .

提出了一个利用两个超导量子干涉仪与腔的共振相互作用来实现D-J算法的简单的方案。

Ascheme for implementing the Deutsch-Jozsa algorithm is proposed by using two superconducting quantum interference devices interact with a cavity resonantly .

本文还应用共振荧光理论，研究了一个置于腔中的V型三能级原子的共振荧光的压缩谱，探讨了腔诱导量子干涉对原子共振荧光相振幅的压缩谱的影响。

Finally , we use resonance fluorescence theory to study the quadrature squeezing spectra in the resonance fluorescence of a V-type three-level atom driven by a coherent field and coupled to a single-mode cavity . The influence on the squeezing spectrum caused by cavity-induced quantum interference is discussed .

通过超导量子干涉仪（SQUID）分析，在Mn+注入剂量为5.0×1015cm-2、并经850℃退火30s的GaN膜中发现了铁磁性，表明离子注入方法是进行GaN掺杂改性的有效手段。

The ferromagnetism with hysteresis loop of the Mn ~ + implanted GaN films is revealed by the use of superconducting quantum interference device ( SQUID ) . It suggests that ion implantation is an effective method for GaN doping .

EIT的基本原理是利用控制光场所诱导的原子态之间的量子干涉效应消除介质对入射探测光场的吸收。

The idea of EIT is that it introduces an extra control field to induce a quantum interference between the atomic states , which can be used to eliminate the absorption of a probe field propagating in the media .

设计了一种高温超导平面式梯度计的探测线圈，利用这种探测线圈与超导量子干涉器件（SQUID）耦合，可以制成二阶或更高阶的高温超导SQUID平面式磁场梯度计。

We have proposed a novel method for designing the second_order planar gradiometers and even high_order gradiometers . The gradiometer consists of two parts , one is the superconducting quantum interference device ( SQUID ), the other is the pickup loop which is directly coupled with the SQUID .

研究了Tripod-type四能级原子与三光场相互作用系统的量子干涉效应下的电磁感应透明和开关效应的调控。

In the system of a tripod-type four-level atom system interacting with three light fields . Under the effect of quantum interference , electromagnetic induced transparence ( EIT ) and optical switching phenomena is researched . 4 .