排序方式: 共有32条查询结果,搜索用时 15 毫秒
1.
2.
轨道角动量(OAM)是光的一个重要的自由度。由于携带OAM的光束具有特殊的强度相位分布以及力学效应,使得此类光束在高速光通信、测量、成像、光镊和量子信息中具有广泛的应用。关于OAM光束在准相位匹配晶体(QPM)中的频率变换研究,一方面可以研究OAM光束参与非线性相互作用时与高斯光束不同的物理机制;另一方面,非线性过程提供了多种有效的光场调控手段,可以实现携带OAM光场不同自由度的精细调控,为满足不同的光学应用奠定基础。综述了近十年来OAM光束在QPM晶体中的非线性转换研究主要进展,具体包括:非线性过程中OAM光束的守恒、传输、演化和干涉行为研究,高效率的OAM激光和单光子态频率转换研究,OAM频率转换效率模式非依赖性研究,矢量光束的频率转换研究,以及无后向选择的高维OAM纠缠态的制备研究。最后讨论和展望了OAM在QPM晶体中频率转换方面的未来研究趋势。 相似文献
3.
Adjusting the properties of the photon generated via an optical parametric oscillator by using a pulse pumped laser 下载免费PDF全文
The cavity-enhanced spontaneous parametric down-conversion far below threshold can be used to generate a narrow-band photon pair efficiently. Previous experiments on the cavity-enhanced spontaneous parametric down-conversion almost always utilize continuous wave pump light, but the pulse pumped case is rarely reported. One disadvantage of the continuous wave case is that the photon pair is produced randomly within the coherence time of the pump, which limits its application in the quantum information realm. However, a pulse pump can help to solve this problem. In this paper, we theoretically analyze pulse pumped cavity-enhanced spontaneous parametric down-conversion in detail and show how the pump pulse affects the multi-photon interference visibility, two-photon waveform, joint spectrum and spectral brightness. 相似文献
4.
5.
Quantum simulation has been developed extensively over the past decades,widely applied to different models to explore dynamics in the quantum regime.Rydberg atoms have strong dipole-dipole interactions and interact with each other over a long distance,which makes it straightforward to build many-body interacting quantum systems to simulate specific models.Additionally,neutral atoms are easily manipulated due to their weak interactions.These advantages make Rydberg many-body system an ideal platform to implement quantum simulations.This paper reviews several quantum simulations for different models based on Rydberg many-body systems,including quantum Ising models in one dimension and two dimensions mainly for quantum magnetism,XY model for excitation transport,SSH model for symmetry-protected topological phases,and critical self-organized behaviors in many-body systems.Besides,some challenges and promising directions of quantum simulations based on Rydberg many-body system are discussed in this paper. 相似文献
6.
多体量子系统的相互作用是研究量子信息科学必须要解决的瓶颈性问题之一.里德堡(Rydberg)原子具有很大的电偶极矩,使得它可以实现长程的相互作用,为研究多体量子物理提供了有力的技术手段.因而Rydberg原子多体系统是多体相互作用探究的理想平台, Rydberg原子多体相互作用的研究对多体量子系统的相互作用的性质研究和应用探究有着重要意义.本文综述了关于Rydberg原子多体相互作用方面的研究,介绍了由Rydberg原子的多体相互作用引起的Rydberg阻塞效应、Rydberg原子多体系统拉比频率的变化以及Rydberg原子多体系统呈现的特别的空间构型;同时介绍了利用Rydberg原子多体相互作用实现一些应用的工作,如实现单光子源、量子存储、实时单原子成像以及量子模拟等,并讨论了Rydberg原子多体系统的研究方向和应用前景. 相似文献
7.
We theoretically study the properties of a dielectric plate with a modified Hong-Ou-Mandel interferometer. The fourth-order correlation functions are calculated in two regimes, which are divided depending on the relative size between the thickness of the dielectric plate and the one-photon coherence length. When the thickness of the dielectric plate is less than the one-photon coherence length, a novel modulation behavior of the coincidence rate is observed, which has not been discussed before. If the thickness of the dielectric plate is larger than the one-photon coherence length, coalescence and anti-coalescence are observed. The obtained results highlight the effects of a linear optical element on fourth-order interference. 相似文献
8.
9.
In this work,we report on an off-resonant four-wave mixing experiment via a ladder-type configuration in a hot rubidium atomic vapour.We find for the first time,to the best of our knowledge,that the generated light is delayed compared with the reference.At the same time,the seeded signal beam is also delayed,though the delay time is not as so large as the one that the generated light has.Both delayed times can be adjusted experimentally by controlling the two-photon detuning.The experimental results are in good agreement with our theoretical predictions.Our results may be important for storing telecom-band photons. 相似文献
10.
得益于数字全息与几何相位平面光学技术的逐渐成熟,空间结构光场调控及应用研究已在线性光学领域取得蓬勃发展。与之相比,以非线性光学为物理途径的相关研究虽能实现许多关键功能(如光场间信息交互)却仍处于起步阶段。笔者课题组在国家自然科学基金等项目的支持下,近期聚焦光场调控与非线性光学领域前沿问题“空间多模态经典及量子光场的非线性产生、变换及接口技术”,重点突破了空间全维度参量变换理论与相关技术瓶颈,取得了一系列理论及应用创新成果,为高维量子光学相关实验研究的开展打下坚实基础。 相似文献