铁、铬、钒原子激发态的光电离截面

这篇文章分别在278～288nm、335～361nm、300～310nm激光波长范围内分别报道过渡金属中的铁原子、铬原子和钒原子的共振增强多光子电离(REMPI)的实验结果.实验中采用激光烧蚀和分子束相结合的技术制备金属原子.光离子产物由飞行时间质谱仪检测.根据共振电离离子信号对探测激光功率的依赖关系,得到原子激发态的光电离截面值.     

钴、钛原子激发态光电离研究

本文报道紫外区钛和钴原子共振增强多光子电离(REMPI)谱和激发态绝对光电离截面。实验上通过激光烧蚀金属样品制备中性原子,由飞行时间质谱仪检测离子产物,在298-351nm范围扫描激光波长,得到钛原子和钴原子共振增强多光子电离谱;并根据共振离子信号强度与电离激光通量关系得到原子激发态的绝对光电离截面,这些激发态电离截面的实验值在0.5-4 Mb。     

钴、钛原子激发态光电离研究

本文报道紫外区钛和钴原子共振增强多光子电离(REMPI)谱和激发态绝对光电离截面。实验上通过激光烧蚀金属样品制备中性原子,由飞行时间质谱仪检测离子产物,在298-351nm范围扫描激光波长,得到钛原子和钴原子共振增强多光子电离谱;并根据共振离子信号强度与电离激光通量关系得到原子激发态的绝对光电离截面,这些激发态电离截面的实验值在0.5-4 Mb。     

Ti原子315nm-321nm区（1+1）共振增强多光子电离谱的实验研究

结合激光烧蚀、超声射流技术,在实验上制备了高浓度的Ti原子自由原子束源,测定了315nm-321nm光谱区过渡金属Ti原子的(1+1)共振增强多光子电离谱,并对光谱结构进行了归属.     

Measurement of Photoionization Cross Sections of the Excited States of Titanium

实验研究了钛原子在293～321 nm波段的共振增强多光子电离. 采用激光烧蚀和超声射流相结合的实验技术来制备自由原子,由飞行时间质谱仪实现对钛原子光电离产物的检测. 从离子信号强度对和激光强度的依赖关系导出了钛原子价电子激发态的光电离截面. 实验测量的一些激发态光电离截面在0.2～6.0 Mb. 通过对⁴⁶Ti、⁴⁷Ti、⁴⁸Ti的光电离截面测量研究,没有发现明显的同位素依赖性.     

二甲基硫分子的共振增强多光子电离解离过程的实验研究

本文报道了在280~286.5 nm区域内,通过共振增强多光子电离-时间飞行质谱和质量选择光电离激发谱对二甲基硫分子的光电离和光解离通道进行了研究.实验结果表明,在280~286.5 nm区域内,二甲基硫分子以母体分子的电离通道为主,即首先电离生成母体离子然后母体离子再解离生成碎片离子.     

用于原子能级结构研究的激光共振电离光谱系统

激光共振电离光谱技术是一种利用一路或多路激光将待测原子选择性共振激发与电离,通过测量离子信号来研究原子能级结构的光谱技术。研建了一套激光共振电离光谱装置,用于原子高激发态能级结构参数的测量。分别从该装置的总体结构、关键技术和应用实例等方面进行了详细介绍。该套装置主要包括高调谐精度的染料激光器系统、高效的激光离子源系统和高分辨率的飞行时间质量分析器。染料激光器系统包括3台多纵模可调谐染料激光器和1台单纵模可调谐染料激光器,均为脉冲工作方式,重复频率为10 kHz,泵浦源均为532 nm的Nd∶YAG固体激光器。激光离子源系统包括原子化源、激光与原子相互作用区和离子光学透镜组三部分组成,样品在原子化源中被电加热实现原子化,喷射出的原子被激光选择性激发、电离,产生的离子被离子传输透镜整形成能量分散小、束窄的离子束。飞行时间质量分析器采用了反射式结构设计、脉冲垂直推斥技术和偏转板调节技术。利用此装置,实验测定了U原子的自电离态光谱,获得了U原子一条较佳的三色三光子共振电离路径,对应激光的波长分别为591.7,565.0和632.4 nm。此系统还可用于测量同位素位移和原子超精细结构等参数。另外,由于此系统中联用了质量分析器,因此可用于样品多元素分析、痕量元素分析、同位素丰度分析。     

铝原子激发态近阈限光电离截面测量

本文利用激光烧蚀、激光泵浦-探测、共振增强多光子电离和飞行时间质谱相结合的实验技术,根据离子产额和电离激光能量的关系,获取铝原子激发态的光电离截面;并研究了光电离截面与电离富余能的依赖关系.电离富余能0-2.98 e V内光电离截面值范围为15.6±1.7 Mb-2.3±0.9 Mb,激发态的寿命为17.6±1.8,16.9±1.7 ns.在光电离截面的测量中,总的均方根误差上限约为17%.     

用共振激发延迟电离方法测定原子激发态的光电离截面

用两束脉冲激光,一束使原子共振激发,另一束使激发态原子电离,当电离光脉冲能量约达1J/cm~2时,可使电离饱和.测量被电离原子数的相对大小与电离光脉冲能量之间的函数关系,可以方便地得出原子激发态的光电离截面.延迟电离光至激发光脉冲结束后到达作用区,可以修正激发光对电离的贡献,并避免电离光引起的Stark位移对共振激发的影响.应用共振激发延迟电离方法测定了Cs原子7~2P_(3/2)态的光(λ=5320(?))电离截面,测量值σ_I=6.5×10~(-18)cm~2与Manson的计算值非常接近.     

铝原子激发态近阈限光电离截面测量

本文利用激光烧蚀、激光泵浦-探测、共振增强多光子电离和飞行时间质谱相结合的实验技术,根据离子产额和电离激光能量的关系,获取铝原子激发态的光电离截面;并研究了光电离截面与电离富余能的依赖关系.电离富余能0-2.98 eV内光电离截面值范围为15.6±1.7 Mb-2.3±0.9 Mb,激发态的寿命为17.6±1.8,16.9±1.7ns.在光电离截面的测量中,总的均方根误差上限约为17%.     

Resonance ionization spectroscopy of thorium

Here we describe experiments aimed at developing an element-selective ion source for thorium (Th). The technique applied is resonance ionization spectroscopy (RIS) with a thermal atom beam. Ionization schemes for isotopically nonselective ionization of Th as well as for isotopically selective ionization of ²³⁰Th are proposed. The RIS-scheme used is two-photon two-colour ionization with excitation in the ultraviolet spectral range between 244 nm and 267 nm or in the visible spectral range between 485 nm and 529 nm. Ionization of the excited atoms is performed either by ultraviolet photons or by visible photons, depending on the energy required for this process.     

稀土元素铕(Fu)的单光子共振和双光子共振激光增强电离光谱

本文首次报道稀土元素铕(Eu)的激光增强电离光谱.用紫外可调谐激光器检测到EuI 287.779um,EnI 287·887nm,EuI 289.254nm,Eul 289.303nm,EuI 289.383nm的单光子共振激光增强光谱.用可见区可调谐染料激光器检测到EuI的双光子共振激光增强电离光谱.对铕(Eu)原子激发和离化机理进行了讨论.稀土元素铕的检测限达10ng/ml.     

Few-cycle attosecond pulses via periodic resonance interaction with hydrogenlike atoms

We show that it is possible to produce nearly bandwidth-limited few-cycle attosecond pulses based on periodic resonance interaction of a quasi-monochromatic radiation with the bound states of hydrogenlike atoms. A periodic resonance is provided by a far-off-resonant laser field with intensity much below the atomic ionization threshold via periodic tunnel ionization from the excited states and adiabatic Stark splitting of the excited energy levels. Without external synchronization of the spectral components, it is possible to produce 135 as pulses at 13.5 nm in Li2?-plasma controlled by radiation of a mode-locked Nd:YAG laser, as well as 1.25 fs pulses at 122 nm in atomic hydrogen controlled by radiation of a CO? laser.     

Resonant generation of few-cycle pulses in hydrogenlike atoms

We show the possibility to produce nearly bandwidth-limited few-cycle pulses based on time-dependent resonant interaction of an incident radiation with the bound states of hydrogenlike atoms. A time-dependence of an atomic resonance is provided by far-off-resonant laser field with intensity much below the atomic ionization threshold via time-dependent tunnel ionization from the excited states and temporal adiabatic Stark splitting of the excited energy levels. Without external synchronization of the spectral components it is possible to produce a train of two-cycle pulses at 121.6 nm with duration 800 as in atomic hydrogen.     

铈原子偶宇称自电离态激光共振电离光谱

给出了利用三色三光子激光共振电离光谱技术研究铈原子偶宇称自电离态的结果。27个有较大跃迁截面高奇宇称激发态被用作第二激发态。第三台染料激光波长在634～670nm范围内扫描,发现了141个偶宇称自电离态能级。为了寻求最佳电离方案,对有较大自电离态能级跃迁截面的各电离路径进行了初步的判定,推荐了8条较佳的电离路径。     

铅原子非共振多光子电离过程的研究

在激光波长为1064nm、532nm和355nm下,研究了铅原子的非共振多光子过程.通过改变激光脉冲的线宽研究了铅原子非共振7-光子电离速率和激光统计性的依赖关系.     

Statistical Ionization Equilibrium in Partially Degenerate Plasmas

The thermal ionization equilibrium in plasmas is considered at pressures for which the electron gas is partially to considerably degenerate. An ionization equation is derived which takes into account that i) the electron energies are distributed according to Fermi statistics and ii) the (heavy) ions and atoms obey Boltzmann statistics which is valid up to pressures at which the wave functions of the atoms begin to overlap. A comparison of the quantum statistical and Saha ionization equations indicates that the degeneracy effects in the electron gas suppress somewhat the ionization. It is remarkable that the Saha equation describes, approximately, the thermal ionization equilibrium up to the critical pressure at which the wave functions of the atoms begin to overlap (e.g., up to P ~ 103 Bar and P ~ 106 Bar in the cases of Cs and H plasmas, respectively), although the electrons are noticeably degenerate.     

Multiphoton Ionization of Potassium Atoms in Femtosecond Laser Fields

We study the multiphoton ionization of potassium atoms in 800 nm and 400 nm femtosecond laser fields.In the 800 nm laser field,the potassium atom absorbs three photons and emits one electron via one photon resonance with the 4p intermediate state with the help of the ac-Stark shift.The resonance feature is clearly shown as an Autler-Townes(AT) splitting and is mapped out in the electron kinetic energy spectrum.In a 400 nm laser field,although one photon resonance is possible with the 5p state,no splitting is observed.The different transition amplitudes between 4s-4p and 4s-5p explain the observed results.Due to the AT effect,an unexpected peak in the photoelectron energy spectrum that violates the dipole transition rule is observed.A preliminary explanation involving the spin-orbit interaction in the p state is given to account for this component.The observed ATsplitting in the electron kinetic energy distribution can be used as an effective method to calibrate the intensity of a laser field.