束内散射效应下HALF储存环物理参数的优化设计

合肥先进光源（HALF）是我国规划建设的软X射线与VUV衍射极限储存环光源（DLSR）。如何有效地实现衍射极限束流发射度,是DLSR物理设计中的核心问题之一。基于束流发射度演化方程,针对HALF预研项目的储存环物理设计方案,计算了束内散射（IBS）效应带来的发射度增长,研究了DLSR中关键参数选择对IBS造成的发射度增长的影响。研究表明,在中低能DLSR物理设计中需要综合考虑储存环的周长、同步辐射阻尼时间等关键参数,以更好地抑制束流发射度的增长。在此研究基础上,通过综合考虑用户需求与储存环物理要求,提出了HALF当前工程项目的储存环物理设计方案。进一步综合应用束团拉伸、全耦合等措施后,更高效地抑制了HALF储存环内IBS造成的束流发射度增长。     

用于高场加速器磁体的新型高温超导内插线圈概念设计

中国科学院高能物理研究所正在进行环形正负电子对撞机-超级质子对撞机(CEPC-SPPC)的研究工作,未来超级质子对撞机(SPPC)初期要求的主环二极磁体磁场强度为12 T,升级后的磁体场强需求为20～24 T.为了达到15 T及以上的场强,高温超导线材制作的内插高场线圈是目前的唯一选择.本文对YBCO内插线圈做了相应的探究,并提出的一种新的设计方案,具有以下特点:线圈结构采用Common-coil与Block-type混合的设计,并解决了端部弯曲半径小的问题;充分利用YBCO在高场下磁场与超导带材平行时临界电流密度是垂直情况下的数倍特性,通过优化端部结构减小线材与磁场夹角;计算了不同形状及弯曲半径组合下的线材弯曲情况,综合考虑了端部长度与线材张力之间相互制约的问题,并给出了最终结果;试绕了两种端部的铜线圈,以及balloon-end的高温超导YBCO线圈并进行了测试.     

国际直线对撞机的参数选择

给出了确定直线对撞机参数的一般程序, 作为一个例子, 给出了超低束团电量时的参数表. 文章的主要目的是说明束流参数和对撞点以及阻尼环之间的相互制约关系. 对于17km的阻尼环, 它的能量被建议由5GeV升到7GeV. 然而,对于6km的阻尼环能量为5GeV是合理的.     

第三代同步辐射光源储存环支撑组件振动控制研究

第三代同步辐射光源对束流轨道稳定性要求很高,上海光源是一台在建的第三代光源,束流位置稳定度要求达到微米乃至亚微米级.地基振动会使储存环磁聚焦结构中的各种元件发生机械振动引起随时间变化的束流闭合轨道畸变,影响束流轨道稳定性.上海光源场地振动幅值大,需要研究措施控制机械组件的振动.阻尼减振是一种有效的振动控制方法,针对上海光源储存环机械组件,作者设计了一种阻尼减振方案.试验结果表明,该方案能有效地控制机械组件的振动.这对于保证上海光源的束流稳定性要求有积极意义.     

第三代同步辐射光源储存环支撑组件振动控制研究

第三代同步辐射光源对束流轨道稳定性要求很高, 上海光源是一台在建的第三代光源, 束流位置稳定度要求达到微米乃至亚微米级. 地基振动会使储存环磁聚焦结构中的各种元件发生机械振动引起随时间变化的束流闭合轨道畸变, 影响束流轨道稳定性. 上海光源场地振动幅值大, 需要研究措施控制机械组件的振动. 阻尼减振是一种有效的振动控制方法, 针对上海光源储存环机械组件, 作者设计了一种阻尼减振方案. 试验结果表明, 该方案能有效地控制机械组件的振动. 这对于保证上海光源的束流稳定性要求有积极意义.     

BEPCⅡ直线加速器的束流调试和稳定运行

BEPCⅡ重大改造工程要求将对撞机的峰值亮度提高近百倍,并具有高积分亮度,为此必须对作为注入器的直线加速器进行重大改造,提供高能、强流、小发射度和小能散度的正负电子束,达到高注入速率(正电子50mA/min.)的要求.这对直线加速器各系统和束流调试是一个挑战.在成功建造了新电子源、新正电子源、新微波功率源、相位控制系统和束流轨道测量系统等的基础上,着重叙述了束流参数的调试结果,束流能量、能散度、发射度、传输效率均达到(或优于)设计指标.描述了束流参数稳定性的研究、改进和成功地达到稳定运行.最后简述了新建中的次谐波聚束系统,以进一步提高束流性能和注入速率.     

国际直线对撞机研究现状及未来发展

文章介绍了国际直线对撞机(ILC)的科学目标及直线对撞机(LC)与强子对撞机(LHC)的关系.结合对正负电子直线对撞机历史的回顾及国际直线对撞机方案的选择,对国际直线对撞机的发展现状及未来发展趋势进行了介绍.对中国科学家在国际直线对撞机中所做的国际合作研究进行了简要的回顾,并强调了中国抓住国际直线对撞机国际合作机遇对中国科学发展的重要性.     

BEPCⅡ直线加速器的束流调试和稳定运行

BEPCⅡ重大改造工程要求将对撞机的峰值亮度提高近百倍, 并具有高积分亮度, 为此必须对作为注入器的直线加速器进行重大改造, 提供高能、强流、小发射度和小能散度的正负电子束, 达到高注入速率(正电子50mA/min.)的要求. 这对直线加速器各系统和束流调试是一个挑战. 在成功建造了新电子源、新正电子源、新微波功率源、相位控制系统和束流轨道测量系统等的基础上, 着重叙述了束流参数的调试结果, 束流能量、能散度、发射度、传输效率均达到(或优于)设计指标. 描述了束流参数稳定性的研究、改进和成功地达到稳定运行. 最后简述了新建中的次谐波聚束系统, 以进一步提高束流性能和注入速率.     

NEPCⅡ新电子枪热结构分析与测试

北京正负电子对撞机重大改造工程(BEPCⅡ)要求其直线注入器提供更高的能量和流强, 为此必须设计大电流和小发射度的新电子枪, 以提高正电子的产额. 利用ANSYS对BEPCⅡ新电子枪的温度场分布及结构的热变形进行了模拟分析. 对于电子枪复杂的内部结构形态以及能量转换方式, 分析了传导传热方式对温度场的影响. 在此基础上进行了温度场与结构变形的耦合分析, 利用EGUN对电子枪形变前后束流光学特性进行模拟分析, 并对模拟结果与试验 测试结果进行了分析比较.     

BEPCⅡ工程磁铁设计与制造

北京正负电子对撞机(BEPC)改造工程是将原来的单环升级为高亮度的双环对撞机(BEPCⅡ), 即在现存的BEPC隧道里增加一个新的储存环. 使得BEPCⅡ能够提供从1.0GeV到2.1GeV能量范围的高亮度对撞束流供高能物理实验用, 同时外环还要兼容2.5GeV能量250mA流强的同步辐射专用模式运行, 实际上相当于有3个储存环运行. 由于受到BEPC储存环隧道空间的局限, 物理上的高亮度要求, 以及BEPCⅡ真空盒设计采用带前室(Antechamber)结构, 因此给各种磁铁设计与制造增加了相当大的难度. 着重介绍BEPCⅡ储存环和对撞区中几种主要常规磁铁的设计、制造概况, 同时也给出了相应的磁场测量结果.     

International Linear Collider damping ring lattice design with two wiggler sections

The International Linear Collider (ILC), which is based on super-conducting RF acceleration technology, requires the damping rings to provide beams with extremely small equilibrium emittance, and large acceptance to ensure good injection efficiency for high-emittance, and high-energy spread beam from the positron source. In order to reduce the cost for ILC damping rings, an alternative lattice which is different from the baseline configuration design has been designed with modified FODO arc cells, and the total quadrupole number has been reduced by half. At the same time, to decrease the total cost involved in constructing access shafts needed to supply power, cryogenics etc. for the wigglers and other systems, the number of wiggler sections is decreased from 8 to 4, and further to 2. This new lattice has been optimized to have a good dynamic aperture. This alternative ILC damping ring lattice design will reduce the cost largely as compared with the baseline design.     

Mode field distributions in solid core photonic bandgap fibers

Solid core photonic bandgap fibers (PBGFs) incorporate a microstructure lattice of high index rods in a low index matrix surrounding a defect core formed by one or several missing rods. Liquids, which can have a wide variety of absorption, gain, nonlinear, and thermal properties, have been used as the high index medium in such fibers. The modal interaction with the liquid is thus an important consideration in the design of solid core PBGFs. We numerically investigate the modal overlap with the high index rods and show that it strongly depends on the core size, and that it has only a weak direct dependence on other lattice properties such as fill fraction, number of rings, or index contrast. We apply our results to calculating the effect of material absorption in the fluid on the transmission properties. We present experimental data which quantitatively confirm our numerical predictions.     

Performance of GLD detector

Most of the important physics processes to be studied in the international linear collider (ILC) experiment have multi-jets in the final state. In order to achieve better jet energy resolution, the so-called particle flow algorithm (PFA) will be employed and there is a general consensus that PFA derives overall ILC detector design. Four detector concepts for the ILC experiment have been proposed so far in the world; the GLD detector that has a large inner calorimeter radius, which is considered to have an advantage for a PFA, is one of them. In this paper, general scheme and performance of the GLD-PFA will be presented.      

PEPX-type lattice design and optimization for the High Energy Photon Source

A new generation of storage ring-based light sources, called diffraction-limited storage rings(DLSR), with emittance approaching the diffraction limit for multi-ke V photons by using multi-bend achromat lattice, has attracted worldwide and extensive studies of several laboratories, and been seriously considered as a means of upgrading existing facilities in the imminent future. Among various DLSR proposals, the PEPX design demonstrated that it is feasible to achieve sufficient ring acceptance for off-axis injection in a DLSR, by designing the lattice based on the ‘thirdorder achromat' concept and with a special high-beta injection section. For the High Energy Photon Source(HEPS)planned to be built in Beijing, a PEPX-type lattice has been designed and continuously improved. In this paper, we report the evolution of the PEPX-type design for HEPS, and discuss the main issues relevant to the linear optics design and nonlinear optimization.     

Effects of thickness and delamination on the damping in honeycomb-foam sandwich beams

In engineering applications where the use of lightweight structures is important, the introduction of a viscoelastic core layer, which has high inherent damping, between two face sheets, can produce a sandwich structure with high damping. Sandwich structures have the additional advantage that their strength to weight ratios are generally superior to those of solid metals. So, sandwich structures are being used increasingly in transportation vehicles. Knowledge of the passive damping of sandwich structures and attempts to improve their damping at the design stage thus are important. Some theoretical models for passive damping in composite sandwich structures are reviewed in this paper. The effects of the thickness of the core and face sheets, and delamination on damping are analyzed. Measurements on honeycomb-foam sandwich beams with different configurations and thicknesses have been performed and the results compared with the theoretical predictions.     

Dynamic instability of flying head slider and stabilizing design for near-contact magnetic recording

The dynamic instability of a flying head slider is described, and a design guideline is presented for a slider that can stably fly at a height of less than 5 nm. The current use of shrouded Rayleigh step-bearing slider has been a good way to increase air-bearing stiffness and damping while reducing meniscus adhesion and friction forces, but does not have enough ability to achieve a small flying height less than 5 nm. On the basis of meniscus interfacial force theory, I proposed a spherical pad slider that is inherently stable in the near-contact regime and that has high durability against intermittent contact, which is necessary for future high-density magnetic recording. This design concept is being partly realized by thermal flying height control technique.     

Ultimate parameters of the photon collider at the international linear collider

At linear colliders, the e ⁺ e ⁻ luminosity is limited by beam-collision effects, which determine the required emittances of beams in damping rings (DRs). In γγ collisions at the photon collider, these effects are absent, and so smaller emittances are desirable. In the present damping ring designs, nominal DR parameters correspond to those required for e ⁺ e ⁻ collisions. In this note, I would like to stress once again that as soon as we plan the photon collider mode of ILC operation, the damping ring emittances are dictated by the photon collider requirements — namely, they should be as small as possible. This can be achieved by adding more wigglers to the DRs; the incremental cost is easily justified by a considerable potential improvement of the γγ luminosity. No expert analysis exists as of now, but it seems realistic to obtain a factor five increase of the γγ luminosity compared to the ‘nominal’ DR design.      

Analysis of the displacement field of a moving dislocation in a crystal

The method of stationary phase is applied to the asymptotic evaluation of the integrals that give the atomic displacements for a high velocity screw dislocation in a simple cubic lattice. The moving dislocation creates a wake behind it. Inside the wake there are large oscillatory displacements due to the emission of sound waves, while in front of the dislocation the displacements are given to a good approximation by continuum elastic theory. The strain field inside the wake is oscillatory and falls off as the square root of the distance from the dislocation core in the absence of dissipation; an exponential damping occurs if the phonons are assigned a finite lifetime. Special attention is given to the edge of the wake where the strain field decreases as the inverse cube root in the absence of damping. The comparison with the numerical evaluation of the atomic displacement is very good over the range of validity of the asymptotic formulae     

Far infrared optical properties of polycrystalline NaClO3, KClO3, NaBrO3 and KBrO3

The resonant frequencies, damping constants and oscillator strengths of far infrared lattice vibrations of polycrystalline NaClO₃, KClO₃, NaBrO₃ and KBrO₃ have been obtained through classical dispersion (CD) analysis of transmission data. Space group analysis has been applied for attribution assignments and to ascertain the translational and rotational character of the respective lattice bands. The damping constants were found to be unusually large indicating short lifetimes of the excited states in spite of an apparent absence of phonon-phonon coupling. The CD analysis of the spectra also provide reliable values of oscillator strength and resonant frequency.