Polarization control of multi-photon absorption under intermediate femtosecond laser field

It has been shown that the femtosecond laser polarization modulation is a very simple and well-established method to control the multi-photon absorption process by the light–matter interaction. Previous studies mainly focused on the multiphoton absorption control in the weak field. In this paper, we further explore the polarization control behavior of multiphoton absorption process in the intermediate femtosecond laser field. In the weak femtosecond laser field, the secondorder perturbation theory can well describe the non-resonant two-photon absorption process. However, the higher order nonlinear effect(e.g., four-photon absorption) can occur in the intermediate femtosecond laser field, and thus it is necessary to establish new theoretical model to describe the multi-photon absorption process, which includes the two-photon and four-photon transitions. Here, we construct a fourth-order perturbation theory to study the polarization control behavior of this multi-photon absorption under the intermediate femtosecond laser field excitation, and our theoretical results show that the two-photon and four-photon excitation pathways can induce a coherent interference, while the coherent interference is constructive or destructive that depends on the femtosecond laser center frequency. Moreover, the two-photon and fourphoton transitions have the different polarization control efficiency, and the four-photon absorption can obtain the higher polarization control efficiency. Thus, the polarization control efficiency of the whole excitation process can be increased or decreased by properly designing the femtosecond laser field intensity and laser center frequency. These studies can provide a clear physical picture for understanding and controlling the multi-photon absorption process in the intermediate femtosecond laser field, and also can provide a theoretical guidance for the future experimental realization.     

Evaluations of vertical resolution of conductive polymer three-dimensional microstructures photofabricated in transparent polymer sheet

Conductive polymer three-dimensional microstructures were photofabricated utilizing the two-photon absorption of a sensitizer dye. The resulting three-dimensional structures were excised from the transparent polymer sheet using a micro-manipulator. The processing precisions for the vertical direction of the conductive polymer three-dimensional microstructure obtained in the transparent polymer sheet were evaluated in the present study. As a result, for the configurations of the obtained polypyrrole line deposition, the line height/line width ratios were around 5: 1; this ratio is higher than that of other UV resin works (h: w 2:4–3: 1) and the cross section distortion is not negligible for maintaining the higher reproducibility of the photofabrication.     

飞秒激光双光子微细加工技术及研究现状

飞秒激光双光子微细加工技术以其特有的高精度三维微加工优势,成为微型机械加工领域新的发展方向之一。介绍了飞秒激光双光子微细加工技术的原理和应用的现状。结合目前已有的微细加工技术,对双光子微细加工技术的特点加以评述。简要报道了利用飞秒激光双光子微细加工技术的一些研究进展。探讨了飞秒激光双光子微细加工技术今后的发展方向及其存在的基本问题。     

Effect of cross-linkable polymer on the morphology and properties of transparent multi-walled carbon nanotube conductive films

In this study, we fabricated optically transparent and electrically conductive multi-walled carbon nanotube (MWCNT) thin films using a spray-coating technique. The transparency and the electrical resistance of thin film are dependent on the nanotube content deposited on the polyethylene terephthalate (PET) substrate. Poly(acrylic acid) (PAA) and poly(N-vinyl pyrrolidone) (PVP) were used as adhesion promoters to improve MWCNT coating more significantly. The cross-linked polymer resulted in a superior bond between the MWCNTs and the substrates. The surface electrical resistance was significantly lower than the original sheet after nitric acid (HNO₃) treatment because of the removed surfactant and the increased interconnecting networks of MWCNT bundles, thus improving the electrical and optical properties of the films. Stronger interaction between the MWCNTs and the substrates resulted in lower decomposition of the polymer chain and less amounts of MWCNTs separated into the HNO₃ solution. The lower sheet electrical resistance of PVP/PAA-g-MWCNT conductive films on the PET substrate was because of a more complete conductive path with the cross-linked polymer than that without. Such an improved sheet of electrical resistance varied from 8.83 × 10⁴ Ω/□ to 2.65 × 10³ Ω/□ with 5.0 wt.% PVP/PAA-g-MWCNT sprayed on the PET after acid treatment.     

Three-dimensional printing of conducting polymer microstructures into transparent polymer sheet: Relationship between process resolution and illumination conditions

Three-dimensional (3D) polypyrrole microstructures were successfully obtained in a transparent polymer sheet by 3D scanning of the laser focal point. The lateral process resolution of the microstructures was studied under different photofabrication conditions such as the repetition rate of the femtosecond pulse laser and the waiting time of the laser focal point scanning. As a result, a very small line width of the polypyrrole deposition of less than 500 nm was realized with good reproducibility.     

飞秒激光在透明介质中诱导光学微腔的实验研究

鉴于飞秒激光脉冲持续时间极短且峰值功率极高，将其紧聚焦到透明介质体内部时，易引发双光子效应、碰撞电离、雪崩击穿等一系列非线性过程，在焦点处产生微爆，从而形成微腔结构。提出采用25fs的激光脉冲在透明介质内部诱导形成微腔结构。分析了微腔的能量阈值。结合三维精密位移台，制备了三维微腔点阵。探讨了超短激光脉冲在透明介质内部形成微腔结构的方法与基本实验参数。试验发现：采用更短脉宽的飞秒脉冲时可以降低微腔形成的能量阈值；通过调整飞秒激光功率、脉冲作用次数和光束聚焦情况等因素，可以有效改变微腔的纵深比；在数值孔径较低时因无法实现紧聚焦，故不能形成微腔。     

激光辐照对热退火金属/掺氟二氧化锡透明导电薄膜光电性能的影响

采用532 nm纳秒脉冲激光对热退火的铝(Al)/掺氟二氧化锡(FTO)、铜(Cu)/FTO和银(Ag)/FTO三种双层复合薄膜表面分别进行处理, 结果显示薄膜样品的光电性能都得到提高.其中, 热退火Ag/FTO薄膜的平均透光率(400–800 nm)增幅最大, 从72.6%提高到80.5%, 主要是由于其表面产生了具有减反增透作用的光栅结构.激光辐照后热退火Ag/FTO薄膜的导电性也略有提高, 其方块电阻从5.6 Ω/sq下降到5.3 Ω/sq, 原因主要是激光辐照的热效应造成的退火作用使薄膜的晶粒尺寸增大, 减少了晶界散射而使载流子迁移率提高.计算结果显示, 激光辐照后热退火Ag/FTO薄膜的品质因子从0.73×10^-2Ω^-1增大为2.16×10^-2Ω^-1, 表明其综合光电性能得到显著提高.激光辐照可同步实现薄膜表面光栅结构的制备和附加退火作用, 这为金属层复合透明导电薄膜光电性能的综合优化提供了新的思路.     

飞秒激光微加工中轴向超分辨相位板的设计及仿真

为了提高激光微加工质量,对激光焦斑进行整形,采用菲涅尔衍射公式进行了理论分析,基于遗传算法和设计约束条件通过Matlab设计了两种二元相位元件,0 结构四环相位板的归一化半径尺寸r1=0.15、r2=0.70、r3=0.81,非0 结构四环相位板的归一化半径尺寸为r1=0.25、r2=0.498、r3=0.652,从内到外各环对应的相位为2.879、3.087、0、3.012,采用这两种位相板调制后的纵向光斑大小可压缩至艾丽斑的76%和75%,峰值能量比分别为0.39和0.42,旁瓣能量分别为0.64和0.41,这两种相位板均可应用于飞秒激光微加工。     

Quadratic electro-optic effect in the nonconjugated conductive polymer iodine-doped trans-polyisoprene, an organic nanometallic system

Thin films of 1,4-trans-polyisoprene have been prepared on various substrates from toluene solution and characterized using Fourier transform infrared (FTIR) spectroscopy, optical absorption spectroscopy and X-ray diffraction before and after doping with iodine. The optical absorption spectrum at low doping shows two peaks: one at 4.2 eV and the other at 3.2 eV. X-ray diffraction indicates an increase of (111) and (122) peak intensities upon doping. Quadratic electro-optic measurements have been made using field-induced birefringence. The Kerr coefficients as measured (3.5×10⁻¹⁰ m/V ² at 633 nm and 2.5×10⁻¹⁰ m/V ² at 1.55 μm) are exceptionally large, and they have been attributed to the subnanometer-size metallic domains formed upon doping and charge transfer.     

有ITO透明导电膜的平面分层介质系统的电磁波性能理论研究

理论研究了有ITO(indium tin oxide)透明导电膜的多层平面分层介质系统的电磁性能，给出的理论曲线和实测曲线符合很好.多层平面分层介质系统的电磁性能与ITO膜(方块电阻为8Ω)所在界面位置和平面分层介质系统层数及各层厚度等有关.优化设计了一种含有ITO透明导电膜的厚度仅7.35mm的四层平面分层介质系统，其在8—18GHz频段内电磁波反射性能很好.作为多层平面分层系统中的ITO导电膜，其方块电阻应低于30Ω，并且越小，其反射性能越好. 关键词： 多层平面介质系统 电磁性能 ITO透明导电膜     

Optical characteristics of light-emitting diodes with high transparent conductive film at low temperatures

In this paper, we report the synthesis and transmittance of a titanium–indium–tin oxide (TITO) film, fabricated through a low-temperature process. The TITO film was fabricated by incorporating a 2-nm-thick titanium barrier at the bottom of an ITO film. The transmittance characteristics of the TITO film were examined for light-emitting diodes (LEDs) of various wavelengths at different post-annealing temperatures. A saturated high transmittance was observed at a temperature of 550 °C, which is relatively low when compared to that in the case of a conventional ITO film. Photoluminescence studies demonstrated that a 450-nm-thick TITO film, fabricated at 550 °C, was highly effective in improving the performance of the LED, when compared to conventional ITO films. The X-ray diffraction peaks, scanning electron microscopy images, and transmittance electron microscopy images confirmed that titanium atoms could improve the crystallization of ITO. It was found that non-crystallization in ITO was effectively activated by the titanium barrier. Furthermore, the optical bandgap (3.77 eV for the conventional ITO film) was improved to 3.92 eV in the TITO film. An infrared LED fabricated with a TITO film displayed 70% higher light output power than that with a conventional ITO film. These results suggest that using a titanium barrier is essential to effectively improve inactive nucleation sites in ITO films grown at low temperatures.     

Recent progress in design of conductive polymers to improve the thermoelectric performance

Organic semiconductors,especially polymer semiconductors,have attracted extensive attention as organic thermoelectric materials due to their capabilities for flexibility,low-cost fabrication,solution processability and low thermal conductivity.However,it is challenging to obtain high-performance organic thermoelectric materials because of the low intrinsic carrier concentration of organic semiconductors.The main method to control the carrier concentration of polymers is the chemical doping process by charge transfer between polymer and dopant.Therefore,the deep understanding of doping mechanisms from the point view of chemical structure has been highly desired to overcome the bottlenecks in polymeric thermoelectrics.In this contribution,we will briefly review the recently emerging progress for discovering the structure–property relationship of organic thermoelectric materials with high performance.Highlights include some achievements about doping strategies to effectively modulate the carrier concentration,the design rules of building blocks and side chains to enhance charge transport and improve the doping efficiency.Finally,we will give our viewpoints on the challenges and opportunities in the field of polymer thermoelectric materials.     

NiO透明导电薄膜的制备及在聚合物太阳能电池中的应用

采用磁控溅射法制备出透明导电氧化物NiO薄膜.椭偏(SE)测试表明NiO薄膜在可见光区域透光性良好,通过调节生长、退火温度可调控NiO的折射率.采用X射线衍射(XRD)、扫描电子显微镜(SEM)手段研究表明,通过退火、改变衬底温度等,可有效改变NiO薄膜的晶体结构以及表面形貌,实现对NiO导电性的调控. 采用优化后的NiO材料为阳极阻挡层制备出的聚合物太阳能电池器件的效率为2.26%,是同等条件下采用 PEDOT:PSS阻挡层的电池器件的3倍以上.     

导热高分子聚合物研究进展

传统高分子聚合物是良好的电绝缘体和热绝缘体.高分子聚合物具备质量轻、耐腐蚀、可加工、可穿戴、电绝缘、低成本等优异特性.高分子聚合物被广泛应用于各种器件.由于高分子材料的热导率比较低(0.1—0.5 W·m^-1·K^-1),热管理(散热)面临严峻的挑战.理论及实验工作表明,先进高分子材料可以具有比传统传热材料(金属和陶瓷)更高热导率. Fermi-Pasta-Ulam (FPU)理论结果发现低维度原子链具有非常高的热导率.广泛使用的聚乙烯热绝缘体可以被转变为热导体:拉伸聚乙烯纳米纤维的热导率大约为104 W·m^-1·K^-1,拉伸的聚乙烯薄膜热导率大约为62 W·m^-1·K^-1.首先,本文通过理论和实验结果总结导热高分子材料的传热机理研究进展,并讨论了导热高分子聚合物的制备策略;然后,讨论了在传热机制及宏量制备方面,高分子聚合物研究领域所面临的新挑战;最后,对导热高分子的热管理应用前景进行了展望.例如,导热高分子聚合物在耐腐蚀散热片、低成本太阳能热水收集器、可穿...     

Ar原子团簇与飞秒强激光相互作用产生的高能离子计算

利用改进的“等离子体球”模型模拟了Ar原子团簇与飞秒强激光相互作用的物理过程.改进后的模型弱化了原模型在共振吸收附近团簇内部屏蔽电场的异常增强行为，从而使其更为合理，计算得到的Ar离子平均动能与以往的实验结果符合.还定量地研究了Ar离子平均动能及其平均电荷态与团簇尺寸以及激光参数之间的变化关系. 关键词： 团簇 飞秒激光 高能离子 共振吸收     

飞秒激光对氟化镁烧蚀机理研究

用扫描电镜(SEM)研究了氟化镁在800nm超短脉冲激光作用下的单枪表面烧蚀形貌.根据烧蚀斑面积与激光脉冲能量间的对数关系，测得烧蚀阈值与激光脉宽的关系曲线(55—750fs).计算了导带电子的双光子吸收，改进了多速率方程模型，很好地解释了实验结果. 关键词： 飞秒激光 氟化镁 烧蚀机理 双光子吸收     

Enhanced light extraction of GaN-based light-emitting diodes with periodic textured SiO_2 on Al-doped ZnO transparent conductive layer

We report an effective enhancement in light extraction of Ga N-based light-emitting diodes(LEDs) with an Al-doped Zn O(AZO) transparent conductive layer by incorporating a top regular textured SiO_2 layer. The 2 inch transparent throughpore anodic aluminum oxide(AAO) membrane was fabricated and used as the etching mask. The periodic pore with a pitch of about 410 nm was successfully transferred to the surface of the SiO_2 layer without any etching damages to the AZO layer and the electrodes. The light output power was enhanced by 19% at 20 m A and 56% at 100 m A compared to that of the planar LEDs without a patterned surface. This approach offers a technique to fabricate a low-cost and large-area regular pattern on the LED chip for achieving enhanced light extraction without an obvious increase of the forward voltage.     

聚合物飞秒激光加工的分子动力学建模与仿真

通过合理选择聚合物分子结构模型和高精度势能函数,建立了聚合物飞秒激光烧蚀加工的分子动力学仿真模型,并使用该模型研究了聚乙烯和聚苯乙烯飞秒激光烧蚀加工中的激光能量辐照和扩散过程。研究结果表明：激光烧蚀加工中聚合物材料的去除方式包括单链热激发引起的表面蒸发和单链热运动引起的内部热膨胀。聚苯乙烯单链的微观变形方式包括单链的整体移动和单链自身结构的变化。聚乙烯和聚苯乙烯的分子结构差异对聚合物单链变形行为和材料去除体积等烧蚀加工结果具有显著的影响。     

Highly flexible,transparent, conductive and antibacterial films made of spin-coated silver nanowires and a protective ZnO layer

We prepared highly flexible, transparent, conductive and antibacterial film by spin coating a silver nanowire suspension on a poly (ethylene terephthalate) (PET) substrate. The ZnO layer covered the conductive silver nanowire (AgNW) network to protect the metal nanowires from oxidization and enhance both wire-to-wire adhesion and wire-to-substrate adhesion. It is found that the number of AgNW coatings correlates with both the sheet resistance (R_s) and the transmittance of the AgNW/ZnO composite films. An excellent 92% optical transmittance in the visible range and a surface sheet resistance of only 9 Ω sq⁻¹ has been achieved, respectively. Even after bending 1000 times (5 mm bending radius), we found no significant change in the sheet resistance or optical transmittance. The real-time sheet resistance measured as a function of bending radius also remains stable even at the smallest measured bending radius (1 mm). The AgNW/ZnO composite films also show antibacterial effects which could be useful for the fabrication of wearable electronic devices.     

飞秒激光作用下异质结的线性吸收谱研究

以二奈嵌苯分子吸附在TiO₂表面所组成的异质结构为例,介绍了在飞秒激光作用下由染料分子和半导体组成的异质结构中从分子基态到半导体导带的超快电子传输过程,在理论上分析了分子内部传输和直接电子传输过程对线性吸收谱的贡献.与分子内部传输过程项相比较分析了电子的超快直接传输在不同的分子及半导体结构下对线性吸收谱的影响. 关键词： 飞秒激光 线性吸收谱 超快电子转移