The formation of ultra-cold neutral plasmas has important significance for studies of traditional plasma physics.
超冷中性等离子体的产生对传统等离子体物理研究具有重要意义。
We reviewed the progress on ultra-cold molecules researches,analyzed the characteristics and physical mechanism in the formation of ultra-cold molecules via photoassociation and gave a detailed analysis of the obtained photoassociation spectrum.
通过介绍超冷分子的研究进展,分析了超冷原子光缔合产生超冷分子的物理机制,详细地介绍了实验中光缔合产生超冷分子的方法并对其光谱进行了分析。
The formation of ultra-cold molecules is extremely important for the research of quantum information processing,molecular physics and molecular chemistry.
超冷分子的产生对于量子信息、分子物理和分子化学具有重要的意义。
Starting from our theoretical results, we discussed theproduction rate of the ultra-cold molecule by the photo-associated method.
首先我们简要回顾了产生超冷分子的方法。
Dynamics of the interaction between a trapped ultracold ion and a standing wave laser without rotating wave approximation;
无旋转波近似下单个超冷离子与一束驻波型激光相互作用的动力学
By comparison with present day computation methods and introducing the basic concepts of quantum computation,a brief description is given on how to carry out a quantum computation by means of ultracold ions confined in an ion trap.
通过介绍量子计算的基本概念和特点,并对比目前人们使用的计算机的计算方式,对于如何利用囚禁在离子阱中的超冷离子进行量子计算作了简要的叙述。
The feasibility of the new cooling method in the world, two-phase thermo-siphon with auxiliary cooling,was studied in order to resolving the difficulties in the design of China Advanced Research Reactor(CARR) cold neutron source(CNS).
针对中国先进研究堆(CARR)冷中子源的技术难点,研究采用国际上尚无先例的带助冷冷包结构及带助冷两相热虹吸自然循环冷却方式的可行性。
The strength of the moderator cell of cold neutron source(CNS) was analyzed under internal and external pressure.
利用ANSYS软件包对某研究堆冷中子源(CNS)的冷包在内外压共同作用下的强度进行分析。
A series of calculation methods were established in order to calculate the nuclear heating and gain factor accurately,which are two important parameters of hydrogen circulation for the cold neutron source(CNS) in China Advanced Research Reactor(CARR).
为准确计算和研究中国先进研究堆(CARR)冷中子源装置氢系统的核发热和冷中子增益,建立了一整套计算方法。
Adiabaticity and Stability of the Ultracold Atom-molecule Dark State
超冷原子—分子暗态的绝热性和稳定性
Quantum Problems in the Super-Cold Atoms and the System of Molecules in Intense Laser Field;
超冷原子和强激光场中分子体系的量子问题
Chaos、Bifurcation and Quantum Entanglement in Ultra-cold Atom Systems;
超冷原子系统中的混沌、分叉与量子纠缠
Spin Wave Dynamics of the Ultracold Atom Ensemble Confined in an Optical Lattice;
光晶格中超冷原子系综的自旋波动力学
Exact Soliton Solution of the Spin Chain in a Plane Wave Background and Quantum Phase Transition of the Dipolar Bosons in Optical Lattices;
自旋链在平面波背景下的孤子解和光格子中超冷原子的量子相变
Preparation of Quantum Optical States and Properties of Quantum States of Ultra-cold Atoms in Optical Traps;
光场量子态制备与光阱下的超冷原子量子态特性研究
Investigations on Nonlinear Propagation Properties of Ultraslow Light in Cold Atomic Media;
冷原子介质中超慢光的非线性传播特性研究
Strong Coupling Theory for Ultracold Fermi Gases in the BCS-BEC Crossover Regime;
超冷费米原子气体BCS-BEC过渡区的强耦合理论
Dynamics of an Ultracold Dipolar Atom Gas in a Double Well
双势阱中超冷极性原子气体的动力学研究
Field Ionization Spectroscopy of the Ultracold Rydberg Atoms and Evolution into Ultracold Plasmas;
超冷里德伯原子场电离光谱及其向等离子体的演化
CV-AFS Determination of Methyl Mercury in Sediment and Soil Samples with Ultrasonic Extraction
超声萃取-冷蒸气-原子荧光光谱法测定沉积物和土壤样品中甲基汞
ganic moderated reactor
有机冷却型原子反应堆
Novel Schemes to Realize Optical Guiding and Trapping for Cold Atoms or Molecules
冷原子、冷分子光学导引与囚禁新方案的研究
Double-Layer Optical-Trap Arrays for Trapping Cold Atoms or Molecules
实现冷原子或冷分子囚禁的双层光阱列阵
Hypernuclei are similar to nuclei.
超核和原子核是一样的。
Application of rapid-cooling systems of Simens 1 000 MW ultra-supercritical steam turbines
西门子1000MW超超临界汽轮机快冷系统的应用
Cryopreservation of Guppy (Poecilia Reticulata) Sperm;
孔雀鱼(Poecilia reticulata)精子的超低温冷冻保存
Cryopreservation of Molly Fish (Poecilia Latipinna) Sperm;
玛丽鱼(Poecilia latipinna)精子的超低温冷冻保存
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