A new representation of an arbitrary and unknown N-particle state is presented at first. As an application, a scheme for teleporting an arbitrary and unknown N-particle state is proposed when N pairs of two-particle n...A new representation of an arbitrary and unknown N-particle state is presented at first. As an application, a scheme for teleporting an arbitrary and unknown N-particle state is proposed when N pairs of two-particle non- maximally entangled states are utilized as quantum channels. After Alice (sender) makes Bell-state measurement on her particles, Bob (recipient) introduces an auxiliary particle and carries out appropriate unitary transformation on his particle and the auxiliary particle depending on classical information from Alice. Then, von Neumann measurement that confirms whether the teleportation succeeds or not is performed by Bob on the auxiliary particle. In order to complete the teleportation, another N-1 times operations need to be performed which are similar to the above ones. It can be successfully realized with a certain probability which is determined by the product of the smaller coefficients of non-maximally entangled pairs. All possible unitary transformations are given in detail.展开更多
This paper constructs the new common eigenvectors of n intermediate coordinate-momentum operators which are complete and orthonormal. The intermediate coordinate-momentum representation of a multi-particles system is ...This paper constructs the new common eigenvectors of n intermediate coordinate-momentum operators which are complete and orthonormal. The intermediate coordinate-momentum representation of a multi-particles system is proposed and applied to a generaln-mode quantum harmonic oscillators system with coordinate-momentum coupling.展开更多
We present a scheme for perfectly teleporting an arbitrary and unknown N-particle GHZ-class state from a sender to a receiver. We just need one quantum channel composed of two or three particles in the maximally entan...We present a scheme for perfectly teleporting an arbitrary and unknown N-particle GHZ-class state from a sender to a receiver. We just need one quantum channel composed of two or three particles in the maximally entangled state. The sender performs one Bell-state measurement on two of her particles and N - 1 Hadamard operations and N - 1 yon Neumann measurements on the rest N - 1 particles. The receiver adopts one corresponding unitary transformation on his particles shared with the sender. After that, the receiver can obtain the original N-particle GHZ-class state by introducing N - 1 ancillary particles and carrying out N - 1 controlled-NOT operations. We also generalize the scheme to the case of controlled teleportation.展开更多
This paper presents a scheme for probabilistic remote preparation of a three-particle entangled Greenberger-Horne-Zeilinger (GHZ) state via three-particle orthonormal basis projective measurement, and then directly ...This paper presents a scheme for probabilistic remote preparation of a three-particle entangled Greenberger-Horne-Zeilinger (GHZ) state via three-particle orthonormal basis projective measurement, and then directly generalize the scheme to multi-particle case. It is shown that by using N pairs of bipartite non-maximally entangled states as the quantum channel and N-particle orthonormal basis projective measurement, the multi-particle remote preparation can be successfully realized with a certain probability.展开更多
Abstract Reactivity measurement is an essential part of a zero-power physics test,which is critical to reactor design and development.The rod drop experimental technique is used to measure the control rod worth in a z...Abstract Reactivity measurement is an essential part of a zero-power physics test,which is critical to reactor design and development.The rod drop experimental technique is used to measure the control rod worth in a zero-power physics test.The conventional rod drop experimental technique is limited by the spatial effect and the difference between the calculated static reactivity and measured dynamic reactivity;thus,the method must be improved.In this study,a modified rod drop experimental technique that constrains the detector neutron flux shape function based on three-dimensional space–time dynamics to reduce the reactivity perturbation and a new method for calculating the detector neutron flux shape function are proposed.Correction factors were determined using Monte Carlo N-particle transport code and transient analysis code for a pressurized water reactor at the Ulsan National Institute of Science and Technology and Xi’an Jiaotong University,and a large reactivity of over 2000 pcm was measured using the modified technique.This research evaluated the modified technique accuracy,studied the influence of the correction factors on the modification,and investigated the effect of constraining the shape function on the reactivity perturbation reduction caused by the difference between the calculated neutron flux and true value,using the new method to calculate the shape function of the detector neutron flux and avoiding the neutron detector response function(weighting factor)calculation.展开更多
MCNP(Monte Carlo N-particle)输入文件格式较复杂,特别是对相关物体几何参数的描写更难,不仅书写麻烦,而且很容易出错。为方便用户准确得到输入文件,进行了MCNP可视化输入程序的开发。程序运行于Windows平台下,使用VC++和OpenGL语言编...MCNP(Monte Carlo N-particle)输入文件格式较复杂,特别是对相关物体几何参数的描写更难,不仅书写麻烦,而且很容易出错。为方便用户准确得到输入文件,进行了MCNP可视化输入程序的开发。程序运行于Windows平台下,使用VC++和OpenGL语言编译。应用该程序,用户能够在一个三维可视化环境中创建几何体并定义区域,描写数据卡,最后直接得到符合MCNP输入文件格式要求的inp文件。展开更多
体素模型与Monte Carlo模拟计算方法相结合已开始应用于辐射防护的研究中。然而,通常的模拟计算需要很长的时间,这限制了体素模型的广泛应用。该文对模拟计算中体素模型的描述进行研究,实现了把三维体素合并算法用在MCNP(Monte Carlo N-...体素模型与Monte Carlo模拟计算方法相结合已开始应用于辐射防护的研究中。然而,通常的模拟计算需要很长的时间,这限制了体素模型的广泛应用。该文对模拟计算中体素模型的描述进行研究,实现了把三维体素合并算法用在MCNP(Monte Carlo N-particle)程序描述体素模型的方法。结果表明,使用该方法描述体素模型,粒子输运过程要比传统的方法快32%,但是对粒子在组织器官中沉积能量的纪录需要更多时间。关键词:辐射;MCNP(Monte Carlo N-particle);体素;人体模型;展开更多
为了研究核装置内中子密度随时间的瞬态变化规律,在Monte Carlo程序DSMC(dynamic system Monte Carlo)的基础上发展了一种新的计算核装置中子时间常数方法,该方法先求得本征分布源,然后求中子时间常数。通过与MCNP(Monte Carlo N-partic...为了研究核装置内中子密度随时间的瞬态变化规律,在Monte Carlo程序DSMC(dynamic system Monte Carlo)的基础上发展了一种新的计算核装置中子时间常数方法,该方法先求得本征分布源,然后求中子时间常数。通过与MCNP(Monte Carlo N-particle)程序计算α本征值的方法及两个模型的计算结果比对分析发现:在超临界和临界情况下两者结果一致;在较深次临界情况下,新方法克服了MCNP程序方法的不足,计算结果更为可靠,特别是在MCNP4C不能顺利完成计算的情况下,新方法依然有效。展开更多
放射性光子源如103Pd和125I已被广泛用于前列腺和眼睛的植入治疗中。本文使用MCNP4C软件计算美国医学物理学家协会(American association of physicists in medicine,AAPM)推荐的103Pd和125I的剂量学特征。由AAPM推荐的剂量学参量如剂...放射性光子源如103Pd和125I已被广泛用于前列腺和眼睛的植入治疗中。本文使用MCNP4C软件计算美国医学物理学家协会(American association of physicists in medicine,AAPM)推荐的103Pd和125I的剂量学特征。由AAPM推荐的剂量学参量如剂量率常数、径向剂量函数、各项异性函数通过Monte Carlo计算得到,在材料固体水WT1(solid water)中,125I的剂量率常数为0.99,103Pd的为0.682,而在材料Water中,125I剂量率为1.01。与前研究工作者Reners的计算结果相比125I的剂量率一致,而103Pd剂量率和各向异性函数结果相差较大,这些差异是使用不同Monte Carlo代码截面数据引起的。展开更多
随着惯性约束聚变的发展,对聚变产物特别是中子探测的定量分析变得非常重要。采用三维Monte Carlo输运程序MCNP(Monte Carlo N-particle),对不同铅屏蔽厚度下探测器的DT中子相对灵敏度,和中子半影成像的数值模拟进行了一定的研究。结果...随着惯性约束聚变的发展,对聚变产物特别是中子探测的定量分析变得非常重要。采用三维Monte Carlo输运程序MCNP(Monte Carlo N-particle),对不同铅屏蔽厚度下探测器的DT中子相对灵敏度,和中子半影成像的数值模拟进行了一定的研究。结果显示,相对灵敏度的模拟与实验结果符合得很好,而中子成像模拟能为惯性约束聚变物理实验的开展提供指导。展开更多
用并行化的MCNP(Monte Carlo N-particle)程序模拟了美国堪萨斯州立大学1977的光子散射实验基准问题。针对不加顶盖屏蔽层的情况,对问题的几何和材料进行了详细的描述,模拟了地面、水泥柱壳屏蔽体和小车的散射。由于问题并不是完全轴对...用并行化的MCNP(Monte Carlo N-particle)程序模拟了美国堪萨斯州立大学1977的光子散射实验基准问题。针对不加顶盖屏蔽层的情况,对问题的几何和材料进行了详细的描述,模拟了地面、水泥柱壳屏蔽体和小车的散射。由于问题并不是完全轴对称的,因而采用的是点探测器估计,用100个处理器模拟了1亿个样本,给出了计算结果和实验值的对比,模拟结果和试验结果存在一些差别,但趋势相同。同时,用指向概率法的MCCO程序与MCNP进行了比较。模拟中还考虑了加重要性和不加重要性对计算效率的影响。展开更多
根据Snyder解析模型建立了一个含有肿瘤的BNCT(硼中子俘获治疗)-4 mm网格模型,应用MCNP(Monte Carlo N-particle)程序进行模拟计算,并对结果进行了物理分析;使用新研制的MCDB(Monte Carlodosimetry in brain)程序对Snyder加肿瘤模型进...根据Snyder解析模型建立了一个含有肿瘤的BNCT(硼中子俘获治疗)-4 mm网格模型,应用MCNP(Monte Carlo N-particle)程序进行模拟计算,并对结果进行了物理分析;使用新研制的MCDB(Monte Carlodosimetry in brain)程序对Snyder加肿瘤模型进行了模拟,得到和MCNP程序几乎完全一致的结果,验证了MCDB程序的正确性,由于MCDB采用了适合均匀网格的快速粒子径迹算法,因而提高了计算速度,较MCNP节省了36%的模拟时间。展开更多
In this paper,we have addressed the problem of the radiation transport with the Monte Carlo N-particle(MCNP) code.This is a general-purpose Monte Carlo tool designed to transport neutron,photon and electron in three d...In this paper,we have addressed the problem of the radiation transport with the Monte Carlo N-particle(MCNP) code.This is a general-purpose Monte Carlo tool designed to transport neutron,photon and electron in three dimensional geometries.To examine the performance of MCNP5 code in the field of external radiotherapy,we performed the modeling of an Electron Density phantom(EDP) irradiated by photons from 60Co source.The model was used to calculate the Percent Depth Dose(PDD) at different depths in an EDP.One field size for PDD has been examined.A 60Co photons source placed at 80 cm source to surface distance(SSD).The results of calculations were compared to TPS data obtained at National Institute of Oncology of Rabat.展开更多
Based on the study of a new type of conducting polymer poly (3,4-ethylenedioxythiophene) (PEDOT),this paper focuses on the preparation and the materials properties of PEDOT nanoparticles made by reversed micelle metho...Based on the study of a new type of conducting polymer poly (3,4-ethylenedioxythiophene) (PEDOT),this paper focuses on the preparation and the materials properties of PEDOT nanoparticles made by reversed micelle method.Investigations on optical,electrical and the thermal stability of PEDOT nanoparticles were carried out.The main results were as follows: The small-sized PEDOT nanoparticles were prepared by different methods,such as ultraviolet/visible (UV-Vis) spectroscopy,fourier-transform infrared (FT-IR) spectrum,scanning electron microscopy (SEM) and so on.The Bragg peaks of nanoparticles at 6.7°,12.7°,25° were observed by XRD and the good orientation of molecular chain was attributed to the effective doping of toluene-p-sulfonic acid,which also resulted in an enhancement of thermal stability of nanoparticles compared with the conventional PEDOT.Furthermore,the gas sensitivity of nanoparticles deposited on quartz crystal microbalance (QCM) was studied and the nanopartices deposited device exhibited excellent sensitivity to HCl gas at low concentration.Gas sensitivity of the nanoparticles by the reverse micelle was better than that of the common PEDOT particles.展开更多
文摘A new representation of an arbitrary and unknown N-particle state is presented at first. As an application, a scheme for teleporting an arbitrary and unknown N-particle state is proposed when N pairs of two-particle non- maximally entangled states are utilized as quantum channels. After Alice (sender) makes Bell-state measurement on her particles, Bob (recipient) introduces an auxiliary particle and carries out appropriate unitary transformation on his particle and the auxiliary particle depending on classical information from Alice. Then, von Neumann measurement that confirms whether the teleportation succeeds or not is performed by Bob on the auxiliary particle. In order to complete the teleportation, another N-1 times operations need to be performed which are similar to the above ones. It can be successfully realized with a certain probability which is determined by the product of the smaller coefficients of non-maximally entangled pairs. All possible unitary transformations are given in detail.
基金Project supported by the Natural Science Foundation of Heze University of Shandong Province of China (Grant Nos XY07WL01 and XY05WL01)the University Experimental Technology Foundation of Shandong Province of China (Grant No S04W138)the National Natural Science Foundation of China (Grant No 10574060)
文摘This paper constructs the new common eigenvectors of n intermediate coordinate-momentum operators which are complete and orthonormal. The intermediate coordinate-momentum representation of a multi-particles system is proposed and applied to a generaln-mode quantum harmonic oscillators system with coordinate-momentum coupling.
基金Supported by the National Natural Science Foundation of China under Grant Nos 60472017 and 10575017.
文摘We present a scheme for perfectly teleporting an arbitrary and unknown N-particle GHZ-class state from a sender to a receiver. We just need one quantum channel composed of two or three particles in the maximally entangled state. The sender performs one Bell-state measurement on two of her particles and N - 1 Hadamard operations and N - 1 yon Neumann measurements on the rest N - 1 particles. The receiver adopts one corresponding unitary transformation on his particles shared with the sender. After that, the receiver can obtain the original N-particle GHZ-class state by introducing N - 1 ancillary particles and carrying out N - 1 controlled-NOT operations. We also generalize the scheme to the case of controlled teleportation.
文摘This paper presents a scheme for probabilistic remote preparation of a three-particle entangled Greenberger-Horne-Zeilinger (GHZ) state via three-particle orthonormal basis projective measurement, and then directly generalize the scheme to multi-particle case. It is shown that by using N pairs of bipartite non-maximally entangled states as the quantum channel and N-particle orthonormal basis projective measurement, the multi-particle remote preparation can be successfully realized with a certain probability.
文摘Abstract Reactivity measurement is an essential part of a zero-power physics test,which is critical to reactor design and development.The rod drop experimental technique is used to measure the control rod worth in a zero-power physics test.The conventional rod drop experimental technique is limited by the spatial effect and the difference between the calculated static reactivity and measured dynamic reactivity;thus,the method must be improved.In this study,a modified rod drop experimental technique that constrains the detector neutron flux shape function based on three-dimensional space–time dynamics to reduce the reactivity perturbation and a new method for calculating the detector neutron flux shape function are proposed.Correction factors were determined using Monte Carlo N-particle transport code and transient analysis code for a pressurized water reactor at the Ulsan National Institute of Science and Technology and Xi’an Jiaotong University,and a large reactivity of over 2000 pcm was measured using the modified technique.This research evaluated the modified technique accuracy,studied the influence of the correction factors on the modification,and investigated the effect of constraining the shape function on the reactivity perturbation reduction caused by the difference between the calculated neutron flux and true value,using the new method to calculate the shape function of the detector neutron flux and avoiding the neutron detector response function(weighting factor)calculation.
文摘MCNP(Monte Carlo N-particle)输入文件格式较复杂,特别是对相关物体几何参数的描写更难,不仅书写麻烦,而且很容易出错。为方便用户准确得到输入文件,进行了MCNP可视化输入程序的开发。程序运行于Windows平台下,使用VC++和OpenGL语言编译。应用该程序,用户能够在一个三维可视化环境中创建几何体并定义区域,描写数据卡,最后直接得到符合MCNP输入文件格式要求的inp文件。
文摘体素模型与Monte Carlo模拟计算方法相结合已开始应用于辐射防护的研究中。然而,通常的模拟计算需要很长的时间,这限制了体素模型的广泛应用。该文对模拟计算中体素模型的描述进行研究,实现了把三维体素合并算法用在MCNP(Monte Carlo N-particle)程序描述体素模型的方法。结果表明,使用该方法描述体素模型,粒子输运过程要比传统的方法快32%,但是对粒子在组织器官中沉积能量的纪录需要更多时间。关键词:辐射;MCNP(Monte Carlo N-particle);体素;人体模型;
文摘为了研究核装置内中子密度随时间的瞬态变化规律,在Monte Carlo程序DSMC(dynamic system Monte Carlo)的基础上发展了一种新的计算核装置中子时间常数方法,该方法先求得本征分布源,然后求中子时间常数。通过与MCNP(Monte Carlo N-particle)程序计算α本征值的方法及两个模型的计算结果比对分析发现:在超临界和临界情况下两者结果一致;在较深次临界情况下,新方法克服了MCNP程序方法的不足,计算结果更为可靠,特别是在MCNP4C不能顺利完成计算的情况下,新方法依然有效。
文摘放射性光子源如103Pd和125I已被广泛用于前列腺和眼睛的植入治疗中。本文使用MCNP4C软件计算美国医学物理学家协会(American association of physicists in medicine,AAPM)推荐的103Pd和125I的剂量学特征。由AAPM推荐的剂量学参量如剂量率常数、径向剂量函数、各项异性函数通过Monte Carlo计算得到,在材料固体水WT1(solid water)中,125I的剂量率常数为0.99,103Pd的为0.682,而在材料Water中,125I剂量率为1.01。与前研究工作者Reners的计算结果相比125I的剂量率一致,而103Pd剂量率和各向异性函数结果相差较大,这些差异是使用不同Monte Carlo代码截面数据引起的。
文摘随着惯性约束聚变的发展,对聚变产物特别是中子探测的定量分析变得非常重要。采用三维Monte Carlo输运程序MCNP(Monte Carlo N-particle),对不同铅屏蔽厚度下探测器的DT中子相对灵敏度,和中子半影成像的数值模拟进行了一定的研究。结果显示,相对灵敏度的模拟与实验结果符合得很好,而中子成像模拟能为惯性约束聚变物理实验的开展提供指导。
文摘用并行化的MCNP(Monte Carlo N-particle)程序模拟了美国堪萨斯州立大学1977的光子散射实验基准问题。针对不加顶盖屏蔽层的情况,对问题的几何和材料进行了详细的描述,模拟了地面、水泥柱壳屏蔽体和小车的散射。由于问题并不是完全轴对称的,因而采用的是点探测器估计,用100个处理器模拟了1亿个样本,给出了计算结果和实验值的对比,模拟结果和试验结果存在一些差别,但趋势相同。同时,用指向概率法的MCCO程序与MCNP进行了比较。模拟中还考虑了加重要性和不加重要性对计算效率的影响。
文摘根据Snyder解析模型建立了一个含有肿瘤的BNCT(硼中子俘获治疗)-4 mm网格模型,应用MCNP(Monte Carlo N-particle)程序进行模拟计算,并对结果进行了物理分析;使用新研制的MCDB(Monte Carlodosimetry in brain)程序对Snyder加肿瘤模型进行了模拟,得到和MCNP程序几乎完全一致的结果,验证了MCDB程序的正确性,由于MCDB采用了适合均匀网格的快速粒子径迹算法,因而提高了计算速度,较MCNP节省了36%的模拟时间。
基金Laboratory of Radiation and Nuclear Systems (LRSN)
文摘In this paper,we have addressed the problem of the radiation transport with the Monte Carlo N-particle(MCNP) code.This is a general-purpose Monte Carlo tool designed to transport neutron,photon and electron in three dimensional geometries.To examine the performance of MCNP5 code in the field of external radiotherapy,we performed the modeling of an Electron Density phantom(EDP) irradiated by photons from 60Co source.The model was used to calculate the Percent Depth Dose(PDD) at different depths in an EDP.One field size for PDD has been examined.A 60Co photons source placed at 80 cm source to surface distance(SSD).The results of calculations were compared to TPS data obtained at National Institute of Oncology of Rabat.
基金supported by the National Natural Science Foundation of China (Grant No. 60372002)
文摘Based on the study of a new type of conducting polymer poly (3,4-ethylenedioxythiophene) (PEDOT),this paper focuses on the preparation and the materials properties of PEDOT nanoparticles made by reversed micelle method.Investigations on optical,electrical and the thermal stability of PEDOT nanoparticles were carried out.The main results were as follows: The small-sized PEDOT nanoparticles were prepared by different methods,such as ultraviolet/visible (UV-Vis) spectroscopy,fourier-transform infrared (FT-IR) spectrum,scanning electron microscopy (SEM) and so on.The Bragg peaks of nanoparticles at 6.7°,12.7°,25° were observed by XRD and the good orientation of molecular chain was attributed to the effective doping of toluene-p-sulfonic acid,which also resulted in an enhancement of thermal stability of nanoparticles compared with the conventional PEDOT.Furthermore,the gas sensitivity of nanoparticles deposited on quartz crystal microbalance (QCM) was studied and the nanopartices deposited device exhibited excellent sensitivity to HCl gas at low concentration.Gas sensitivity of the nanoparticles by the reverse micelle was better than that of the common PEDOT particles.