Statistics of polymer capture by a nanopore: A Brownian dynamics simulation study

We investigate the statistics of polymer capture by a nanopore using Brownian dynamics simulations. It is found that when the velocity flux is greater than a critical velocity flux, the capture picture is a random selection process, otherwise it tends to a statistical process governed by energetic considerations. In addition, the chain ends capture probability decreases as the chain length increases and satisfies a power-law scaling of P0(N)~N-0.8.     

A Quasi-Symmetric Coupled Quantum Well and Its Electric-Optical Properties

We propose a novel coupled quantum well structure, i.e. a quasi-symmetric coupled quantum well (QSCQW). Based on the demands of optical switching devices for quantum well materials, the QSCQW configuration is further optimized. Consequently, in the case of low applied electric field 25kV/cm and low absorption loss 100cm^-1, a large field-induced refractive index change (for TE mode, n = 0.0106; for TM mode, n = 0.0115) is obtained in the QSCQW structure at the operation wavelength 1550hm. The value is in one or two order of magnitude larger than that in a rectangular quantum well and about 50% larger than that of five-step asymmetric coupled quantum well structure under the same working conditions. The refractive index change obtained with the optimized QSCQW under so low absorption loss and applied electric field is very attractive for semiconductor optical switching devices. This manifests that the QSCQW structure has a great potential for applications in ultra-fast and low-voltage optical switches and in travelling wave modulators.     

Multiparty Quantum Secret Sharing of Key Using Practical Faint Laser Pulses

Based on a bidirectional quantum key distribution protocol [Phys. Rev. A 70 (2004)012311], we propose a (m-1, m-1)-threshold scheme of m (m≥3)-party quantum secret sharing of key by using practical faint laser pulses. In our scheme, if all the m-1 sharers collaborate, they can obtain the joint secret key from the message sender. Our scheme is more feasible according to the present-day technology.     

100μm远红外FEL系统单一微波源实验

自由电子激光性能主要取决于电子束的品质，而电子束的品质主要依赖于微波加速场的稳定。特别是对自由电子激光用户装置，对微波源的稳定性要求更高。中物院FEL必须解决的问题其中之一有必须提高FEL自发辐射的稳定性。设计的系统中因采用了两个速调管放大器分别给注入器和加速器提供微波功率，两个放大器相位的抖动(随机的)自然会引起能量的变化，尤其在低能段还会影响到束流的品质。2003年采用了中科院电子所首批研制的KL-54速调管进行单波源改进实验，为了减少微波传输中的损耗，引进了3端口大功率环行器，使功率损耗减少了20％，与此同时设计生产了大功率电调功分器和电调移相器，使单一微波源建立起来，达到了满意的结果。     

CONVERGENCE OF AN ITERATION METHOD WITHOUT DERIVATIVE

In this paper, we give a convergence theorem and error estimates for an iteration method under new Kantorovitch-Ostrowski type condition using the information of higher derivatives at initial points. Compared with the corresponding study in [3],the convergence determination is established under one global condition, instead of two , on the function.     

3—二氯乙酰基—2，5—二甲基—2—乙基—1，3—E唑烷的一锅法合成与生物活性

利用“一锅法”合成了标题化合物，经元素分析，IR和^1H NMR确定了结构，并对产物进行了初步的生物活性测定。     

磺化聚醚醚酮／二氧化硅／磷钨酸导电复合膜的制备

1引言 直接甲醇燃料电池（DMFC）被认为是最适合发展可移动电源的选择之一，目前困扰DMFC发展的主要问题之一是所使用的质子交换膜（主要是杜邦公司的Nation膜）的阻醇性能较低。磺化聚醚醚酮膜（SPEEK）特有的微观结构使其阻醇性能明显的优于Nation膜，而较低的质子传导率、较差的机械性能以及溶胀等缺点限制了它的应用；本文通过在其中加入二氧化硅（SiO2）和磷钨酸（PWA）制备磺化聚醚醚酮／二氧化硅／磷钨酸导电复合膜，并考察了二氧化硅及磷钨酸对复合膜溶胀性能、质子传导率及机械性能的影响。     

非螯合型手性双膦铑对脱氢苯丙氨酸的不对称催化加氢反应

报道从Ｄ－甘露醇出发合成手性双膦（２Ｓ，５Ｓ）－３，６－双（二苯膦）－１，４：３，６－双脱水－２，５－双去氧－Ｌ－艾杜醇，原位下ＢＤＰＩ与３种铑配合物作用生成手性非螯合型双膦铑催化剂，常压下对４种脱氢苯丙氨酸衍生物进行不对称催化化反主尖，对反应结果及ｅ．ｅ．值进行了讨论。