异质结中桥分子电子转移的飞秒激光控制研究

以染料分子通过桥分子吸附在半导体表面所组成的异质结为研究对象, 用一维约化振动模型研究了异质结中桥分子电子转移的飞秒激光优化控制过程,分别对单个桥分子和两个并列桥分子连接的异质结系统的电子传输及飞秒激光控制做了仔细的计算和讨论,理论上分析了桥分子的存在对异质结中超快电子转移路径的影响. 关键词： 飞秒激光 优化控制 异质结电子转移     

37 fs、 0.94 μm钛宝石自锁模激光器的研究

报道了低增益区Ｔｉ＾３＋：Ａｌ２Ｏ３红外飞秒激光器的连续及自锁模运转情况,采用四镜折叠像散补偿腔,对于连续波运转,泵浦阈值功率为５．８Ｗ,其调谐范围为０．９－０．９７μｍ。     

时间分辨电子显微镜的可行性研究

文章从理论上分析了飞秒激光与金属阴极的相互作用过程．将飞秒激光与金属阴极产生的超短电子脉冲作为电子源，提出了一种具有时间分辨能力的电子显微镜(TREM)的概念设计．文章作者详细地研究了这种电子显微镜的可行性，并讨论了超短电子脉冲的传输和控制问题．     

时间分辨电子显微镜的可行性研究

文章从理论上分析了飞秒激光与金属阴极的相互作用过程.将飞秒激光与金属阴极产生的超短电子脉冲作为电子源,提出了一种具有时间分辨能力的电子显微镜(TREM)的概念设计.文章作者详细地研究了这种电子显微镜的可行性,并讨论了超短电子脉冲的传输和控制问题.     

Interaction of a relativistic dense electron beam with a laser wiggler in a vacuum: self‐field effects on the electron orbits and free‐electron laser gain

Employing laser wigglers and accelerators provides the potential to dramatically cut the size and cost of X‐ray light sources. Owing to recent technological developments in the production of high‐brilliance electron beams and high‐power laser pulses, it is now conceivable to make steps toward the practical realisation of laser‐pumped X‐ray free‐electron lasers (FELs). In this regard, here the head‐on collision of a relativistic dense electron beam with a linearly polarized laser pulse as a wiggler is studied, in which the laser wiggler can be realised using a conventional quantum laser. In addition, an external guide magnetic field is employed to confine the electron beam against self‐fields, therefore improving the FEL operation. Conditions allowing such an operating regime are presented and its relevant validity checked using a set of general scaling formulae. Rigorous analytical solutions of the dynamic equations are provided. These solutions are verified by performing calculations using the derived solutions and well known Runge–Kutta procedure to simulate the electron trajectories. The effects of self‐fields on the FEL gain in this configuration are estimated. Numerical calculations indicate that in the presence of self‐fields the sensitivity of the gain increases in the vicinity of resonance regions. Besides, diamagnetic and paramagnetic effects of the wiggler‐induced self‐magnetic field cause gain decrement and enhancement for different electron orbits, while these diamagnetic and paramagnetic effects increase with increasing beam density. The results are compared with findings of planar magnetostatic wiggler FELs.     

金纳米结构表面二次电子发射特性

使用低气压蒸发工艺制备了金纳米结构,研究了金纳米结构的二次电子发射特性及其对表面形貌的依赖规律,表征了金纳米结构表面出射二次电子能量分布.实验结果表明:蒸发气压升高时,金纳米结构孔隙率增大,表面电子出射产额降低;能量分布表明金纳米结构仅对低能真二次电子有明显抑制作用,对背散射电子的作用效果则依赖于表面形貌.使用由半球和沟槽构成的复合结构,并结合二次电子发射唯象概率模型,对金纳米结构进行模型等效及电子发射特性仿真,模拟结果表明:纳米结构中的半球状纳米颗粒对两种电子产额均有增强作用;沟槽对真二次电子产额有强抑制作用,而对背散射电子产额仅有微弱抑制作用.本工作深入研究了金纳米结构表面电子发射机理,对于开发空间微波系统中纳米级低电子产额表面有重要参考价值.     

超快非均质电子转移的优化控制研究(Ⅱ)

本文用优化控制理论,以分子的基态作为目标态,考虑了在不同条件下,从二萘嵌苯到TiO2超快电子转移的动力学过程.发现在此目标态的作用下,电子经过一个电子激发-回落的过程从分子的基态激发到与半导体导带耦合的第一电子激发态,然后在给定目标态的作用下回落至电子基态,从而实现了较高的目标态产生率.由于二萘嵌苯的电子激发态与半导体导带能级间的强电子转移耦合,这一控制任务较电子激发态为目标态而言,更适合于实验研究.     

Optical studies of samarium-doped fluoride nanoparticles

Samarium-doped calcium fluoride (CaF₂) nanoparticles were synthesized by the co-precipitation method and characterized by powder X-ray diffraction (PXRD), Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy (SEM), optical absorption and photoluminescence (PL) techniques. The PXRD patterns confirmed the cubic crystallinity of the synthesized nanoparticles. The average particle size estimated using Scherer's formula was ～20?nm. The purity of the synthesized nanoparticles was confirmed by the FTIR spectrum. The morphological features studied using SEM revealed that the nanoparticles were agglomerated and porous. The optical absorption spectrum showed a strong and prominent absorption peak at ～264?nm and a weak one at ～212?nm. The PL spectrum showed broad and prominent emissions with peaks at ～387 and 532?nm along with weak emissions at 573 and 605?nm.     

PED沉积La-Sr-Cu-O薄膜表面的有序纳米结构

采用脉冲电子束沉积(PED)技术在Si(100)衬底上生长La_Sr_Cu_O薄膜，在750℃生长温度下获得具有有序纳米结构的表面形貌.采用聚集离子束(FIB)技术对获得的纳米结构进行表征，结果表明，这种有序的纳米结构是由于Si衬底和La_Sr_Cu_O薄膜之间的热膨胀系数和晶格的 失配引起的纳米裂纹.在这些纳米裂纹处，La_Sr_Cu_O成核生长获得独立的纳米线.通过控制 这种有序的纳米结构的生长，这种有序的纳米结构可以用来构造弱连接形成的器件. 关键词： 脉冲电子束沉积 La_Sr_Cu_O薄膜 纳米结构     

在双热舟化学气相沉积系统中通过掺In技术生长GaN纳米线和纳米锥

在现有的一台蒸发镀膜机基础上，设计加工了一个双热舟化学气相沉积系统.该系统具有真空度高、升温速度快、源和衬底温度可分别控制等优点，有利于化合物半导体纳米材料的生长.利用该生长系统，通过在生长过程中掺入等电子杂质In作为表面活性剂，分别在Si衬底和3C-SiC/Si衬底上生长出高质量的具有纤锌矿结构的单晶GaN纳米线和纳米尖三棱锥.所得产物通过场发射扫描电子显微镜、高分辨透射电子显微镜、能量色散x射线谱仪、x射线衍射仪，和荧光谱仪进行表征.这里所用的生长方法新颖，生长出的GaN纳米尖三棱锥在场发射和激光方面有潜在的应用价值. 关键词： GaN 纳米结构 透射电子显微镜 光致荧光谱     

Degradation in gain for a free electron laser amplifier due to electron momentum spread

A finite spread in axial momentum for the electron beam in a free electron laser amplifier is shown to decrease the small-signal gain. For millimeter and sub-millimeter wave amplifiers, where exponential growth dominates the gain, it is shown that the gain is approximately 3 db below that for a cold beam if the relative momentum spread (u/u)_1/2 = (G_o/248)^1/2 (_o/L), where G_o1 is the gain in db for the cold-beam case, _o is the magnetic wiggler period, and L is the amplifier length. Exact numerical examples are given for representative FEL amplifiers at 35 and 550 GHz.This research was sponsored by the U.S. Office of Naval Research, and by the U.S.-Israel Binational Science Foundation.     

Flat electron beams

Electrons from a source in a solenoidal magnetic field emerge from that field with a characteristic angular momentum. This behavior can be used to produce a flat ribbon-like electron beam with zero thickness (to first order). We show that this can be done using a quadrupole triplet and provide analytical expressions for the focal length of each lens. Solutions can be found over a wide range of practical values of the parameters.     

自由电子激光器谐振腔内电子束和激光脉冲的时间同步

研究自由电子激光器谐振腔内电子束和辐射的时间同步问题.这是激光器谐振腔设计中的一个重要问题.本文讨论了腔内布儒斯特窗片对光路的影响.研制出由微机控制谐振腔的精密微调装置,扫描范围为±3cm,微调精度达1μm.     

Scattering of light waves by electron electrostatic waves in laser produced plasmas

The propagation of light waves in an underdense plasma is studied using one-dimensional Vlasov-Maxwell numerical simulation.It is found that the light waves can be scattered by electron plasma waves as well as other heavily and weakly damping electron wave modes,corresponding to stimulated Raman and Brilluoin-like scatterings.The stimulated electron acoustic wave scattering is also observed as a high scattering level.High frequency plasma wave scattering is also observed.These electron electrostatic wave modes are due to a non-thermal electron distribution produced by the wave-particle interactions.The collision effects on stimulated electron acoustic wave and the laser intensity effects on the scattering spectra are also investigated.     

Effect of upflowing field-aligned electron beams on the electron cyclotron waves in the auroral magnetosphere

The role of low density upflowing field-aligned electron beams (FEBs) on the growth rate of the electron cyclotron waves at the frequencies ω _r < Ω_e, propagating downward in the direction of the Earth’s magnetic field, has been analysed in the auroral region at ω _e/Ω_e < 1 where ω _e is the plasma frequency and Ω_e is the gyrofrequency. The FEBs with low to high energy (E _b) but with low temperature (T _‖b) have no effect on these waves. The FEBs with E _b < 1 keV and T _‖b (> 1.5 keV) have been found to have significant effect on the growth rate. Analysis has revealed that it is mainly the T _‖b which inhibits the growth rate (magnitude) and the range of frequency (bandwidth) of the instability mainly in the higher frequency spectrum. The inhibition in the growth rate and bandwidth increases with increase in T _‖b. The FEBs with less E _b (giving drift velocity) reduce growth rate more than the beams with larger E _b. The inhibition of growth rate increases with the increase in the ratio ω _e/Ω_e indicating that the beams are more effective at higher altitudes.      

High-resolution transmission electron microscopy investigation of the nanostructure of undoped and Pt-doped nanocrystalline pulsed laser deposited SnO2 thin films

Pulsed laser deposition (PLD) was used to grow nanocrystalline SnO₂ thin films onto alumina substrates. The reactive PLD process was carried out at different substrate deposition temperatures (T_d) between 20 and 600 °C under an oxygen background pressure of 150 mtorr. The same PLD technique was used to produce SnO₂ films in situ-doped with Pt (at the level of ∼2 at. %) through the concomitant ablation of both SnO₂ target and Pt strips. Conventional and high-resolution transmission electron microscopy (HRTEM) observations have revealed that the microstructure of the PLD SnO₂ films is highly sensitive to their deposition temperature. Indeed, its changes from a porous granular structure with extremely fine equiaxed grains (∼4 nm diameter), at T_d=20 °C to a very compact and textured columnar structure characterized by SnO₂ columns (∼25 nm diameter) composed of grains of ∼12 nm of diameter, at T_d=600 °C. In addition, the PLD SnO₂ films were found to exhibit the highest nanoporosity at T_d=300 °C which also coincides with the granular-to-columnar microstructural transition. On the other hand, the microstructure of the Pt-doped SnO₂ films, deposited at 300 °C, was found to contain a high density of defects, such as twin boundaries and edge dislocations. By combining HRTEM and EDS microanalysis, we were able to show that the Pt-dopant self-organizes into spherical nanoparticles (1-2 nm diameter) randomly distributed at the SnO₂ grain boundaries. Finally, doping the films with such platinum nanoclusters is found to affect the SnO₂ nanostructure by particularly reducing the SnO₂ mean grain size (from ∼10 nm when undoped to ∼6 nm for the doped films).     

Orbit stability in free electron lasers

Helical magnetic wigglers for free electron lasers can produce non-helical electron trajectories if a uniform axial guide magnetic field is imposed. Friedland's necessary criterion for the existence of helical orbits is reviewed and shown to apply for non-relativistic electron energies. An experiment designed to test this criterion is described and results are compared with theory.This research was ponsored by the U.S. Office of Naval Research, and by the U.S.-Israel Binational Science Foundation.     

The effects of self-fields on the electron trajectory in a two-stream free electron laser with a helical wiggler and an axial guiding magnetic field

A theory for the two-stream free-electron laser(TSFEL) with a helical wiggler and an axial guide magnetic field is developed.In the analysis,the effects of self-fields are taken into account.An analysis of the two-stream steady-state electron trajectories is given by solving the equation of motion.Numerical calculations show that there are seven groups of orbits in the presence of self-fields instead of two groups reported in the absence of self-fields.The stability of the trajectories is studied numerically.     

Time–space transformation of femtosecond free‐electron laser pulses by periodical multilayers

A scattering scheme to probe the time evolution of femtosecond pulses of a soft X‐ray free‐electron laser (FEL) in a multilayer structure is presented. The response of periodic multilayers (MLs) with low and high absorption and various numbers of bi‐layers to a pulse train of Gaussian‐shaped sub‐pulses is calculated. During the passage of the incident pulse the interaction length increases and the scattering profile changes as a function of the spatial position of the pulse within the sample. Owing to stretching of the reflected pulse compared with the incident pulse, the time‐dependent scattering evolution in the ML can be visualized along a spatial coordinate of a position‐sensitive detector. Using a scattering geometry where the mean energy of the incident pulse train is slightly detuned from the energy of maximum reflectivity at the first‐order peak, the response of the ML shows an oscillator behaviour along this spatial coordinate at the detector. For a FEL wavelength of 6.4 nm this effect is promising for MLs with low absorption, such as La/C for example. On the other hand, the oscillations will not be present for MLs with high absorption. Therefore a low‐absorbing ML is a sensitive tool for studying the possible change of sample absorption caused by femtosecond‐pulse interaction with matter.