边界耦合的非Newton渗流方程组解的临界曲线与非灭绝条件

利用上解与下解方法研究了多维空间RN中一类在边界耦合的非Newton渗流方程组,得到了方程组解的临界整体存在曲线与Fujita临界曲线.结果表明,方程组解的两种临界曲线不仅依赖于问题中的参数,而且还与空间的维数N有关,这与维数N=1时的已有结果有很大的区别.此外,还给出了该方程组解的非灭绝条件.     

HT-7装置液态锂限制器实验中锂的腐蚀与沉积特性的研究

在磁约束聚变等离子体装置中, 面对等离子体的第一壁将直接影响高温等离子体性能及第一壁寿命, 具有表面自我修复的、能有效抑制边界粒子再循环的液态金属锂第一壁越来越被重视, 其中液态锂第一壁与等离子体相互作用的研究尤其重要. 本文研究了HT-7装置液态锂限制器实验中锂的表面腐蚀及在装置内沉积特性、及其对等离子体性能影响. 实验表明, 当锂与等离子体相互作用较弱时, 锂以微弱的蒸发及溅射形式从表面腐蚀并进入等离子体, 表现为锂的线辐射有所增强, 等离子体内杂质水平降低, 氢再循环降低, 有利于等离子体约束性能提高; 当锂与等离子体间的相互作用比较强时, 锂主要以锂滴形式直接进入等离子体, 引起锂的辐射爆发, 最终引发等离子体放电破裂. 通过对锂斑及样品的分析发现, 锂主要沉积在限制器周围, 并且在低场侧及沿着等离子体电流方向沉积居多, 表现为极向和环向分布不均匀, 这也导致边界粒子再循环分布的不均匀. 这些实验为研究液态锂第一壁与等离子体相互作用, 分析液态锂第一壁在托卡马克装置上应用具有重要参考意义.     

g-C3N4/BiVO4复合光催化剂的合成及其光催化活性研究

以g-C_3N_4和BiVO_4为主要原料,用高温水热法合成出BiVO4/g-C_3N_4复合催化剂。采用X-射线衍射(PXRD)和紫外-可见漫反射吸收光谱(UV-Vis),对复合催化剂BiVO_4/g-C_3N_4的结构进行表征。在可见光下,考察此复合催化剂对亚甲基蓝的降解性能。研究发现,复合催化剂具有g-C_3N_4和BiVO_4结构特征,在X-射线衍射峰上显示出轻微的宽化,质量比为10%的BiVO_4/g-C_3N_4光催化剂降解活性最好,其降解率在360分钟能达到70.6%。     

库岸再造对雅泸高速公路岗子上隧道进口岸坡的影响

雅泸高速公路青杠咀特大桥泸沽岸桥台与岗子上隧道进口衔接段位于大渡河右岸上部冰积扇上,由于瀑布沟水电站的蓄水将使岸坡前缘约1/4部分没于水下。对整个岸坡影响较大的岩土体主要是由上-中更新统冰积、冰水沉积层组成的冰水堆积物,这类岩土体在水的作用下,其物理力学性质和强度将会发生显著变化,弱化工程性状,从而影响岸坡的稳定性及桥台布置。可以预见,对岸坡起主要影响作用的外部条件就是水的作用,库岸再造将是影响岸坡稳定性的控制性因素。本文以岗子上隧道进口岸坡为研究对象,通过对岸坡工程地质条件、岩土体结构及物理力学特性、岸坡影响因素的分析,深入研究了瀑布沟电站水库蓄水后引起的库岸再造对岸坡稳定性的影响。并采用卡丘金法、两段法(多段法)、极限平衡分析法对库岸再造影响宽度进行预测。3种方法的预测结果表明:瀑布沟电站蓄水后该段岸坡各个不同部位均会产生不同程度的塌岸破坏。根据该库岸岸坡的结构特点和3种方法的适用条件,提出对库岸岸坡不同梯段需要采用不同的预测方法综合预测,即对于水下岸坡可按两段法预测,而对于水上岸坡可综合考虑卡丘金法和极限平衡法的计算结果。对于类似库岸岸坡的稳定性分析具有一定的指导意义。     

Fabrication of Al/AlOx/Al Josephson junctions and superconducting quantum circuits by shadow evaporation and a dynamic oxidation process

Besides serving as promising candidates for realizing quantum computing,superconducting quantum circuits are one of a few macroscopic physical systems in which fundamental quantum phenomena can be directly demonstrated and tested,giving rise to a vast field of intensive research work both theoretically and experimentally.In this paper we report our work on the fabrication of superconducting quantum circuits,starting from its building blocks:Al/AlOx /Al Josephson junctions.By using electron beam lithography patterning and shadow evaporation,we have fabricated aluminum Josephson junctions with a controllable critical current density(jc) and wide range of junction sizes from 0.01 μm2 up to 1 μm2.We have carried out systematical studies on the oxidation process in fabricating Al/AlOx/Al Josephson junctions suitable for superconducting flux qubits.Furthermore,we have also fabricated superconducting quantum circuits such as superconducting flux qubits and charge-flux qubits.     

Study on signal intensity of low field nuclear magnetic resonance via an indirect coupling measurement

We carry out an ultra-low-field nuclear magnetic resonance (NMR) experiment based on high-T c superconducting quantum interference devices (SQUIDs). The measurement field is in a micro-tesla range (～10 μT-100 μT) and the experiment is conducted in a home-made magnetically-shielded-room (MSR). The measurements are performed by the indirect coupling method in which the signal of nuclei precession is indirectly coupled to the SQUID through a tuned copper coil transformer. In such an arrangement, the interferences of applied measurement and polarization field to the SQUID sensor are avoided and the performance of the SQUID is not destroyed. In order to compare the detection sensitivity obtained by using the SQUID with that achieved using a conventional low-noise-amplifier, we perform the measurements using a commercial room temperature amplifier. The results show that in a wide frequency range (～1 kHz-10 kHz) the measurements with the SQUID sensor exhibit a higher signal-to-noise ratio. Further, we discuss the dependence of NMR peak magnitude on measurement frequency. We attribute the reduction of the peak magnitude at high frequency to the increased field inhomogeneity as the measurement field increases. This is verified by compensating the field gradient using three sets of gradient coils.     

脉冲光纤激光修锐青铜金刚石砂轮等离子体特性研究

采用光栅光谱仪 对脉冲光纤激光修锐青铜金刚石砂轮过程中产生的等离子体空间分辨发射光谱进行了测量. 研究了500–600 nm波段范围内的等离子体空间发射光谱强度随激光平均功率和脉冲重复频率的变化情况. 结果表明: 等离子体辐射光谱强度在其径向膨胀方向上距离砂轮表面约2.4 mm处达到最大值. 在局部热力学平衡假设条件下, 根据等离子体中六条铜原子谱线的相对强度, 利用Boltzmann 图法, 计算得到在不同激光功率和重复频 率条件下的等离子体电子温度沿砂轮径向方向的分布规律. 实验结果表明: 在激光修锐青铜金刚石砂轮过程中, 距离砂轮表面约3 mm处等离子体电子温度出现峰值, 其温度最高可达4380 K, 且等离子体电子温度随着激光参数和 空间位置的改变呈现出不同的演变规律. 关键词： 脉冲光纤激光 等离子体发射光谱 激光修锐 电子温度     

Fabrication of superconducting Nb N meander nanowires by nano-imprint lithography

Superconducting nanowire single photon detector(SNSPD), as a new type of superconducting single photon detector(SPD), has a broad application prospect in quantum communication and other fields. In order to prepare SNSPD with high performance, it is necessary to fabricate a large area of uniform meander nanowires, which is the core of the SNSPD. In this paper, we demonstrate a process of patterning ultra-thin Nb N films into meander-type nanowires by using the nanoimprint technology. In this process, a combination of hot embossing nano-imprint lithography(HE-NIL) and ultraviolet nano-imprint lithography(UV-NIL) is used to transfer the meander nanowire structure from the NIL Si hard mold to the Nb N film. We have successfully obtained a Nb N nanowire device with uniform line width. The critical temperature(Tc) of the superconducting Nb N meander nanowires is about 5 K and the critical current(Ic) is about 3.5 μA at 2.5 K.     

Design of a gap tunable flux qubit with FastHenry

In the preparations of superconducting qubits, circuit design is a vital process because the parameters and layout of the circuit not only determine the way we address the qubits, but also strongly affect the qubit coherence properties. One of the most important circuit parameters, which needs to be carefully designed, is the mutual inductance among different parts of a superconducting circuit. In this paper we demonstrate how to design a gap-tunable flux qubit by layout design and inductance extraction using a fast field solver Fast Henry. The energy spectrum of the gap-tunable flux qubit shows that the measured parameters are close to the design values.