共查询到20条相似文献,搜索用时 15 毫秒
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对称性是自然界中最基本的物理属性之一。很多物理现象都与对称性相关联。例如,量子力学中描述具备一定对称性微观物理过程采用厄米—哈密顿算符,其中厄米性不仅确保算符本征值为实数,而且使微观过程满足几率守恒。1998年,Bender和Boettcher发现存在一类非厄米—哈密顿算符,它们的本征值也为实数并满足几率守恒。这类非厄米哈密顿算符最为典型的特征是满足宇称时间对称性。由于时变薛定谔方程和近轴波动方程形式具有相似性,故可进一步将宇称时间对称性引入经典波开放体系。文章回顾了量子体系中宇称时间对称破缺的发现过程,介绍了宇称时间对称性声学的理论模型,以及近期发现的一些奇异效应,并展望了宇称时间对称性声学的研究前景。 相似文献
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Zhang-qi Yin 《Contemporary Physics》2017,58(2):119-139
The question whether quantum mechanics is complete and the nature of the transition between quantum mechanics and classical mechanics have intrigued physicists for decades. There have been many experimental breakthroughs in creating larger and larger quantum superposition and entangled states since Erwin Schrödinger proposed his famous thought experiment of putting a cat in a superposition of both alive and dead states in 1935. Remarkably, recent developments in quantum optomechanics and electromechanics may lead to the realisation of quantum superposition of living microbes soon. Recent evidence also suggests that quantum coherence may play an important role in several biological processes. In this review, we first give a brief introduction to basic concepts in quantum mechanics and the Schrödinger’s cat thought experiment. We then review developments in creating quantum superposition and entangled states and the realisation of quantum teleportation. Non-trivial quantum effects in photosynthetic light harvesting and avian magnetoreception are also discussed. At last, we review recent proposals to realise quantum superposition, entanglement and state teleportation of micro-organisms, such as viruses and bacteria. 相似文献
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本文结合最近的典型量子物理实验 ,如用冷原子Bragg散射实现的“which way”实验 ,量子退相干过程的微腔QED检验和C60 分子的量子干涉等 ,比较系统地介绍了量子理论基本问题若干研究的新进展 ,特别强调了处于其核心的量子测量问题及其相关的基本概念和基本思想 ,如EPR佯谬和Bell不等式 ,量子退相干和量子纠缠。从理论和实验结合的角度 ,本文阐述了被测系统和测量仪器的相互作用怎样导致量子测量的一般动力学过程。由此还讨论了外部环境和内部运动怎样诱导量子退相干和量子耗散 ,对“薛定谔猫佯谬”和“宏观物体空间局域化描述”给出了可能的物理解释。最后 ,通过具体例子 ,本文简单地讨论了量子物理基本问题的研究结果对量子信息的应用 相似文献
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量子理论若干基本问题研究的新进展 总被引:9,自引:0,他引:9
本结合最后的典型量子物理实验,如用冷原子Bragg散射实现的“which-way”实验,量子退相干过程的微腔QED检验和C60分子的量子干涉等,比较系统地介绍了量子理论基本问题若干研究的新进展,特别强调了处于其核心的量子测量问题及其相关的基本概念和基本思想,如EPR佯谬和Bell不等式,量子退相干和量子纠缠,从理论和实验结合的角度本阐述了被测系统和测量仪器的相互作用怎样导致量子测量的一般动力学过程,由此还讨论了外部环境和内部运动怎样诱导量子退相干和量子耗散,对“薛定谔猫佯谬”和“宏观物体空间局域化描述”给出了可能的物理解释,最后,通过具体例子,本简单地讨论了量子物理基本问题的研究结果对量子信息的应用。 相似文献
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量子通信领域的主要两个研究方向,一个是为经典信息传输做量子加密的“量子密钥分发”,另一个是利用量子纠缠传输量子比特的“量子远程(隐形)传态”。文章以“墨子号”量子科学实验卫星的实验任务为线索,首先讲述量子密钥分发中的BB84协议的原理和应用,并系统性介绍量子比特、量子不可克隆定理、量子纠缠、贝尔不等式等概念,以及量子远程(隐形)传态的原理。文末简要介绍“墨子号”量子科学实验卫星和配套地面站的系统构成,以及空间量子通信的发展趋势。 相似文献
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HUANG Da-Zu CHEN Zhi-Gang GUO Ying 《理论物理通讯》2009,51(2):221-226
A (n, n)-threshold scheme of multiparty quantum secret sharing of classical or quantum message is proposed based on the discrete quantum Fourier transform. In our proposed scheme, the secret message, which is encoded by using the forward quantum Fourier transform and decoded by using the reverse, is split and shared in such a way that it can be reconstructed among them only if all the participants work in concert. Fhrthermore, we also discuss how this protocol must be carefully designed for correcting errors and checking eavesdropping or a dishonest participant. Security analysis shows that our scheme is secure. Also, this scheme has an advantage that it is completely compatible with quantum computation and easier to realize in the distributed quantum secure computation. 相似文献
8.
量子纠错编码技术在量子通信和量子计算领域起着非常重要的作用.构造量子纠错编码的主要方法是借鉴经典纠错编码技术,目前几乎所有经典纠错编码方案都已经被移植到量子领域中来,然而在经典编码领域纠错性能最杰出的Turbo码却至今没有量子对应.提出了一种利用量子寄存器网络构造量子递归系统卷积码的简单实现方案,同时利用量子SWAP门设计了一种高效的量子交织器门组网络方案.最后仿照经典Turbo码的设计原理提出串行级联的量子Turbo码,同时提出了可行的译码方法.量子Turbo码不仅丰富了量子纠错码研究的领域,同时为解释
关键词:
量子递归系统卷积码
量子Turbo码
量子纠错编码
量子信息 相似文献
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Quantum Brownian motion, described by the Caldeira–Leggett model, brings insights to the understanding of phenomena and essence of quantum thermodynamics, especially the quantum work and heat associated with their classical counterparts. By employing the phase-space formulation approach, we study the heat distribution of a relaxation process in the quantum Brownian motion model. The analytical result of the characteristic function of heat is obtained at any relaxation time with an arbitrary friction coefficient. By taking the classical limit, such a result approaches the heat distribution of the classical Brownian motion described by the Langevin equation, indicating the quantum–classical correspondence principle for heat distribution. We also demonstrate that the fluctuating heat at any relaxation time satisfies the exchange fluctuation theorem of heat and its long-time limit reflects the complete thermalization of the system. Our research study justifies the definition of the quantum fluctuating heat via two-point measurements. 相似文献
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低维材料不断涌现的新奇性质吸引着科学研究者的目光. 除了电子的量子输运行为之外, 人们也陆续发现和确认了热输运中显著的量子行为, 如 热导低温量子化、声子子带、尺寸效应、瓶颈效应等. 这些小尺度体系的热输运性质可以很好地用非平衡格林函数来描述. 本文首先介绍了量子热输运的特性、声子非平衡格林函数方法及其在低维纳米材料中的研究进展; 其次回顾了近年来在 一系列低维材料中发现的热-自旋输运现象. 这些自旋热学现象展现了全新的热电转换机制, 有助于设计新型的热电转换器件, 同时也给出了用热产生自旋流的新途径; 最后介绍了线性响应理论以及在此理论框架下结合声子、电子非平衡格林函数方法进行的一些有益的探索. 量子热输运的研究对热效应基础研究以及声子学器件、能量转换器件的发展有着不可替代的重要作用. 相似文献
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量子保密通信包括量子密钥分发、量子安全直接通信和量子秘密共享等主要形式.在量子密钥分发和秘密共享中,传输的是随机数而不是信息,要再经过一次经典通信才能完成信息的传输.在量子信道直接传输信息的量子通信形式是量子安全直接通信.基于量子隐形传态的量子通信(简称量子隐形传态通信)是否属于量子安全直接通信尚需解释.构造了一个量子隐形传态通信方案,给出了具体的操作步骤.与一般的量子隐形传态不同,量子隐形传态通信所传输的量子态是计算基矢态,大大简化了贝尔基测量和单粒子操作.分析结果表明,量子隐形传态通信等价于包含了全用型量子密钥分发和经典通信的复合过程,不是量子安全直接通信,其传输受到中间介质和距离的影响,所以不比量子密钥分发更有优势.将该方案与量子密钥分发、量子安全直接通信和经典一次性便笺密码方案进行对比,通过几个通信参数的比较给出各个方案的特点,还特别讨论了各方案在空间量子通信方面的特点. 相似文献
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We review the methods and use of random quantum states with particular emphasis on recent theoretical developments and applications in various fields. The guiding principle of the review is the idea that random quantum states can be understood as classical probability distributions in the Hilbert space of the associated quantum system. We show how this central concept connects questions of physical interest that cover different fields such as quantum statistical physics, quantum chaos, mesoscopic systems of both non-interacting and interacting particles, including superconducting and spin–orbit phenomena, and stochastic Schrödinger equations describing open quantum systems. 相似文献
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对于具有连续能谱的单粒子量子体系,“包含在连续谱量子体系中的决定论性”一文用所谓“双波函数”来描述处于能量本征态的粒子系综中各粒子的量子行为,并且在所谓的“等价定理”中称:双波函数描述在经典极限下将化为经典力学描述.然而,此描述所给出的系综力学量观测值统计分布的预言与通常量子力学不相容;并且,该文对其“等价定理”的证明是不正确的,这个“定理”实际上不成立
关键词:
连续能谱量子体系
双波函数
经典极限 相似文献
14.
Underlying any physical theory is a layer of conceptual frames. They connect the mathematical structures used in theoretical models with the phenomena, but they also constitute our fundamental assumptions about reality. Many of the discrepancies between quantum physics and classical physics (including Maxwell's electrodynamics and relativity) can be traced back to these categorical foundations. We argue that classical physics corresponds to the factual aspects of reality and requires a categorical framework which consists of four interdependent components: boolean logic, the linear‐sequential notion of time, the principle of sufficient reason, and the dichotomy between observer and observed. None of these can be dropped without affecting the others. However, quantum theory also addresses the “status nascendi” of facts, i.e., their coming into being. Therefore, quantum physics requires a different conceptual framework which will be elaborated in this article. It is shown that many of its components are already present in the standard formalisms of quantum physics, but in most cases they are highlighted not so much from a conceptual perspective but more from their mathematical structures. The categorical frame underlying quantum physics includes a profoundly different notion of time which encompasses a crucial role for the present. The article introduces the concept of a categorical apparatus (a framework of interdependent categories), explores the appropriate apparatus for classical and quantum theory, and elaborates in particular on the category of non‐sequential time and an extended present which seems to be relevant for a quantum theory of (space)‐time. 相似文献
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The quantum computer has been claimed to show more quantum advantage than the classical computer in solving some specific problems. Many companies and research institutes try to develop quantum computers with different physical implementations. Currently, most people only focus on the number of qubits in a quantum computer and consider it as a standard to evaluate the performance of the quantum computer intuitively. However, it is quite misleading in most times, especially for investors or governments. This is because the quantum computer works in a quite different way than classical computers. Thus, quantum benchmarking is of great importance. Currently, many quantum benchmarks are proposed from different aspects. In this paper, we review the existing performance benchmarking protocols, models, and metrics. We classify the benchmarking techniques into three categories: physical benchmarking, aggregative benchmarking, and application-level benchmarking. We also discuss the future trend for quantum computer’s benchmarking and propose setting up the QTOP100. 相似文献
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Helmut Rauch 《Foundations of Physics》2012,42(6):760-777
Neutron matter-wave optics provides the basis for new quantum experiments and a step towards applications of quantum phenomena.
Most experiments have been performed with a perfect crystal neutron interferometer where widely separated coherent beams can
be manipulated individually. Various geometric phases have been measured and their robustness against fluctuation effects
has been proven, which may become a useful property for advanced quantum communication. Quantum contextuality for single particle
systems shows that quantum correlations are to some extent more demanding than classical ones. In this case entanglement between
external and internal degrees of freedom offers new insights into basic laws of quantum physics. Non-contextuality hidden
variable theories can be rejected by arguments based on the Kochen-Specker theorem. 相似文献
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笼目起源于古老中华民俗文化。近期学者们对具有笼目晶格的一系列拓扑材料的研究揭示了量子层次上几何、拓扑、自旋和关联的交缠相互作用,以及随之涌现的丰富多彩的量子现象。文章简要介绍了笼目晶格的相关理论概念、陈数和外尔磁性、平带关联现象,以及非常规电荷序和超导电性中的谜团。当前,国际上诸多研究机构使用各式手段对笼目磁体和超导体的研究盛况犹如正在举行一场笼目量子派对。然而,这些初步研究还无法突破超导和量子霍尔两大类宏观量子现象。希望此文能激励更多年轻学者在笼目晶体丰富的演生现象中进一步探寻第三类宏观量子现象,迎来真正的量子盛宴。 相似文献
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This article reconsiders the concept of physical reality in quantum theory and the concept of quantum measurement, following Bohr, whose analysis of quantum measurement led him to his concept of a (quantum) “phenomenon,” referring to “the observations obtained under the specified circumstances,” in the interaction between quantum objects and measuring instruments. This situation makes the terms “observation” and “measurement,” as conventionally understood, inapplicable. These terms are remnants of classical physics or still earlier history, from which classical physics inherited it. As defined here, a quantum measurement does not measure any preexisting property of the ultimate constitution of the reality responsible for quantum phenomena. An act of measurement establishes a quantum phenomenon by an interaction between the instrument and the quantum object or in the present view the ultimate constitution of the reality responsible for quantum phenomena and, at the time of measurement, also quantum objects. In the view advanced in this article, in contrast to that of Bohr, quantum objects, such as electrons or photons, are assumed to exist only at the time of measurement and not independently, a view that redefines the concept of quantum object as well. This redefinition becomes especially important in high-energy quantum regimes and quantum field theory and allows this article to define a new concept of quantum field. The article also considers, now following Bohr, the quantum measurement as the entanglement between quantum objects and measurement instruments. The argument of the article is grounded in the concept “reality without realism” (RWR), as underlying quantum measurement thus understood, and the view, the RWR view, of quantum theory defined by this concept. The RWR view places a stratum of physical reality thus designated, here the reality ultimately responsible for quantum phenomena, beyond representation or knowledge, or even conception, and defines the corresponding set of interpretations quantum mechanics or quantum field theory, such as the one assumed in this article, in which, again, not only quantum phenomena but also quantum objects are (idealizations) defined by measurement. As such, the article also offers a broadly conceived response to J. Bell’s argument “against ‘measurement’”. 相似文献