同位旋对轻系统裂变前粒子发射的影响

在Smoluchowski方程的框架内,研究了同位旋对轻裂变同量异位素源¹¹⁰Tc,¹¹⁰Pd,¹¹⁰In和同位素源^110,117,124In裂变前粒子发射的影响.计算结果表明:断前粒子发射对裂变源的同位旋有很强的依赖性,随着同位旋的增加,中子发射增强,而轻带电粒子则减弱;对一个高同位旋的系统,质子和α粒子不适合作为提取核耗散强度的实验观测量;核耗散强度的大小不改变同位旋对粒子发射的影响规律     

同位旋对断前粒子发射的壳结构依赖性

用扩散模型研究了壳对幻数附近的核,即²⁰⁴Pb,²⁰⁸Pb,²¹²Pb和¹²⁸Sn,¹³²Sn,¹³⁶Sn,在裂变过程中蒸发轻粒子多重性的影响.发现壳能够影响粒子发射的同位旋依赖性,并且该影响的大小与复合系统的自旋和激发能有关.计算表明角动量在壳影响同位旋相关的粒子发射中起到了显著的作用,而高激发能弱化了壳的影响.     

角动量对断前粒子发射壳效应的影响

用Smoluchowski方程研究了角动量对一个轻的闭壳核¹³²Sn裂变前粒子蒸发壳效应的影响,发现壳对断前粒子发射的影响敏感地依赖于这个裂变系统的角动量.对可能的原因进行了讨论     

断前粒子发射的壳效应

用推广的裂变扩散模型研究了裂变前壳效应对粒子发射的影响.双幻核²⁰⁸Pb和¹³²Sn被用作例子来展示这个壳效应.计算结果表明壳效应对这两个复合系统断前发射的粒子有影响.对中子,壳的影响非常明显.我们发现壳对中子发射的影响随着裂变系统激发能的增加而逐渐变弱.     

10.6MeV/u 84Kr+27Al反应中角动量对断点前粒子多重性的影响

用推广的裂变扩散模型研究了角动量对10.6MeV/u ⁸⁴Kr(²⁷Al,二体裂变)反应断点前粒子多重性的影响,发现阶点前粒子多重性和断点时间随着角动量的减小逐渐增大,而且绝大多数粒子是在鞍点前发射的. 对实验中二体裂变反应发生的角动量范围进行权重平均,得到了与实验一致的断点前粒子多重性. 同时还研究了影响断点前粒子多重性和断点时间的诸多因素.     

断前粒子发射的同位素效应

用推广的裂变扩散模型研究了²⁸Si+^164,167,170Er→^192,195,198Pb反应中测量的断前中子、质子和α粒子多重性的激发函数.发现扩散模型能很好地拟合这些轻粒子多重性随裂变系统激发能和Pb同位素的变化趋势.表明断前粒子发射存在一个同位素效应.进而在一个考虑了裂变过程中摩擦效应的统计模型的框架内,在In和Er这两个元素的同位素链中,考察了同位素效应与裂变碎片质量不对称性和裂变系统尺度的关系.计算结果表明:同位素效应的存在不依赖于裂变系统的大小和不对称性.此外,当裂变系统具有高的中质比时,轻带电粒子发射将不再敏感于裂变延迟时间的长短,而中子发射则非常敏感.这个结果暗示对那些特别丰中子的裂变系统,轻带电粒子(质子和α粒子)的多重性对于研究热核裂变过程中的摩擦强度不是一个好的探针.     

转动自由度对10.6MeV/u 84Kr+27Al反应中裂变前粒子增强发射的影响

在统计模型的框架内研究了In核在三维空间的转动自由度对10.6和8.5MeV/u ⁸⁴Kr+²⁷Al碰撞裂变前粒子发射的影响.发现对后一个轰击能,断前粒子发射不敏感于转动自由度;对前一个能量,转动自由度的引入使提取的裂变延迟时间从20×10^－21s减少到7.5×10^－21s,表明了它对裂变前粒子蒸发的影响,计算结果也表明仅有转动自由度并不能完全解释In核的断前粒子增强发射现象.发现了转动自由度在粒子发射中所起的作用对系统的激发能有一定的依赖关系.     

形变对10.6MeV/u 84Kr+27Al反应裂变前粒子发射的影响

研究了形变效应对10.6MeV/u ⁸⁴Kr+²⁷Al反应中断前粒子发射的影响.发现通过测量的裂变前粒子多重性提取的裂变延迟时间将因此从20×10^－21s减少到5×10^－21s,表明增强的断前粒子发射有一部分来自形变效应的贡献.     

重离子反应中核子前平衡发射的同位旋效应

考虑了同位旋相关的对称能、库仑能及核子—核子碰撞截面,对反应⁴⁰Ar+⁴⁰Ar(E=25MeV/u,b=0)进行了量子分子动力学模拟,讨论了同位旋效应对核子发射的影响.观察到前平衡发射的中子和质子的比率大于反应系统的中质比,发现对称能有利于中子的发射而阻碍质子的发射,而同位旋相关的核子—核子碰撞截面对中子和质子的发射都有利,但似乎更有利于质子的发射.     

35MeV/u 40Ar+112Sn/124Sn反应中热核的同位旋对热核发射机制的影响

作为放射性束物理的延伸,热核的同位旋效应引起了理论和实验研究的广泛重视.给出35MeV/u ⁴⁰Ar+¹¹²Sn/¹²⁴Sn实验中,热核的同位旋对热核衰变出射道机制的影响:由于库仑不稳定性和库仑力作用,丰质子热核达到系统平衡前,很容易出现大量有利于增加余核中质比的高能粒子出射(如p.3He、a等);该类轻粒子在热核的衰变链中发射几率较大而且衰变链很长.这样,传统的热核测量量(如能谱斜率温度)将受到测量粒子种类的较大影响.     

Effects of Isospin on Pre-scission Particle Multiplicity of Heavy Systems and Its Excitation Energy Dependence

Isospin effects on particle emission of fissioning isobaric sources ²⁰²Fr, ²⁰²Po, ²⁰²Tl and isotopic sources ^189,202,212Po, and its dependence on the excitation energy are studied via Smoluchowski equations. It is shown that with increasing the isospin of fissioning systems, charged-particle emission is not sensitive to the strength of nuclear dissipation. In addition, we have found that increasing the excitation energy not only increases the influence of nuclear dissipation on particle emission but also greatly enhances the sensitivity of the emission of pre-scission neutrons or charged particles to the isospin of the system. Therefore, in order to extract dissipation strength more accurately by taking light particle multiplicities it is important to choose both a highly excited compound nucleus and a proper kind of particles for systems with different isospins.     

Influence of Angular Momentum on Shell Effects of Pre-scission Particle Emission of a Light Closed Shell Nucleus 132Sn

Based on the Smoluchowski equations, we study the influence of angular momentum on the shell effects of pre-scission particle emission for a light closed shell nucleus ¹³²Sn. It has been found that the shell effects of pre-scission particle multiplicity depends on the angular momentum in a complicated way. Possible reasons are discussed.     

More Detailed Study of Deformation Effects in Prescission Particle Emission by a Diffusion Model

Deformation effects on particle emission in a fission process of 251Es nucleus as functions of excitationenergy, angular momentum, and viscosity coefficient have been investigated in detail within the framework of Smolu-chowski equation. Our calculations show that high excitation energy, low angular momentum, and large viscosity willenhance the influence of deformation on multiplicity of prescission particles, and that the roles of these three parameterswill become weak with decreasing deformation.     

More Detailed Study of Deformation Effects in Prescission Particle Emission by a Diffusion Model

Deformation effects on particle emission in a fission process of ^251Es nucleus as functions of excitation energy, angular momentum, and viscosity coefficient have been investigated in detail within the framework of Smolu-chowski equation. Our calculations show that high excitation energy, low angular momentum, and large viscosity will enhance the influence of deformation on multiplicity of prescission particles, and that the roles of these three parameters will become weak with decreasing deformation.     

A Detailed Study of Pre-scission γ Emission as a Probe of Nuclear Dissipation

Using a Langevin equation coupled with a statistical model, we calculate pre-scission giant dipole resonance （GDR） γ-ray multiplicity of nuclei 194 pb, 200Pb, 206Pb, and 200 Os. It is demonstrated that with increasing the isospin asymmetry of these fissioning nuclei the sensitivity of the emitted γ multiplicity to the nuclear viscosity coefficient is decreased significantly. For 200Os nuc/eus, this γ-ray emission is no longer sensitive to the magnitude of the viscosity coefficient. In addition, the effect of the isospin asymmetry on the γ rays as a probe of nuclear dissipation is reduced with increasing angular momentum. These results suggest that to obtain a more accurate information of the viscosity coemfficient by the measurement of pre-scission GDR γ-ray multiplicity it is better to choose those compound systems with small isospin asymmetry and low spin.     

形变对断前粒子发射同位旋效应的影响

用动力学与统计相结合的模型和统计模型分别研究了形变对重同量异位素²⁰⁰Ag,²⁰⁰Tl,²⁰⁰Bi和轻同量异位素¹¹⁰Pd, ¹¹⁰In, ¹¹⁰Te断前粒子发射的影响. 计算表明形变的影响是存在的, 但形变却并没有改变中子和带电粒子发射 对系统同位旋的依赖关系. 对可能的原因也进行了讨论.     

中能重离子碰撞中库仑相互作用对动量耗散的同位旋效应

利用同位旋相关的量子分子动力学模型，研究了中能重离子碰撞过程中的库仑相互作用对于 动量耗散的同位旋效应.计算结果表明: 由于库仑相互作用的存在，使得碰撞过程中的化学 不稳定区和力学不稳定区减小，明显地减弱了动量耗散；其减弱的程度与对称势的形式及强 度有关，对称势越强则动量耗散的减弱幅度越大.动量耗散灵敏地依赖于核子-核子碰撞截 面的同位旋相关性而较弱地依赖于对称势，这一特征不论有无库仑相互作用均存在. 关键词： 中能重离子碰撞 库仑相互作用 动量耗散 同位旋效应     

Reverse orbiting of microparticles in optical vortices

We report the observation of particles trapped at an air-water surface orbiting in a reverse direction with respect to the orbital angular momentum of the light field. The effect is explained by a combination of asymmetric particle shape and confinement of the particle on the 2D air-water interface. The experiment highlights the strong influence of the particle shape on the momentum transfer, an effect that is often not considered in optical trapping experiments.