带有P型埋层的新型双栅SOI MOSFET

本文提出一种超低比导通电阻(Ron,sp)可集成的SOI 双栅triple RESURF (reduced surface field)的n型MOSFET (DG T-RESURF)。这种MOSFET具有两个特点：平面栅和拓展槽栅构成的集成双栅结构(DG),以及位于n型漂移区中的P型埋层。首先, DG形成双导电通道并且缩短正向导电路径,降低了比导通电阻。DG结构在反向耐压时起到了纵向场板作用,提高了器件的击穿电压特性。其次, P型埋层形成triple RESURF结构 (T-RESURF),这不仅增加了漂移区的浓度,而且调节了器件的电场。这在降低了比导通电阻的同时提高了击穿电压。最后,与p-body区连接在一起的P埋层和拓展槽栅结构,可以显著降低击穿电压对P型埋层位置的敏感性。通过仿真,DG T-RESURF的击穿电压为325V,比导通电阻为8.6 mΩ?cm2,与平面栅single RESURF MOSFET(PG S-RESURF)相比,DG T-RESURF的比导通电阻下降了63.4%,击穿电压上升9.8%。     

A Low On-Resistance SOI LDMOS using a Trench Gate and a Recessed Drain Ge Rui(葛锐), Luo Xiaorong(罗小蓉)?, Jiang Yongheng(蒋永恒), Zhou Kun(周坤),

本文提出了一种超低比导通电阻(R_on,sp) SOI槽栅凹漏MOSFET(TGRD MOSFET)。正向导通时,槽栅和凹漏的结构增加了导电区域,缩短了电流流经的路径,从而降低了比导通电阻。并且此结构中采用了RESURF结构提高了漂移区浓度,进一步降低了比导通电阻。当TGRD MOSFET的半个元胞尺寸为6.5μm时,它的击穿电压为97V,R_on,sp为0.985mΩ.cm₂。与SOI槽栅MOSFET(TG MOSFET)和常规MOSFET(Conventional MOSFET)相比,在相同的BV下,TGRD MOSFET的R_on,sp分别地降低了46%和83%。或者在相同的R_on,sp下,与SOI槽栅槽漏MOSFET(TGTD MOSFET)相比, BV提高了37%。     

具有L型栅极场板的双槽双栅绝缘体上硅器件新结构

为了降低绝缘体上硅（SOI）功率器件的比导通电阻,同时提高击穿电压,利用场板（FP）技术,提出了一种具有L型栅极场板的双槽双栅SOI器件新结构.在双槽结构的基础上,在氧化槽中形成第二栅极,并延伸形成L型栅极场板.漂移区引入的氧化槽折叠了漂移区长度,提高了击穿电压;对称的双栅结构形成双导电沟道,加宽了电流纵向传输面积,使比导通电阻显著降低;L型场板对漂移区电场进行重塑,使漂移区浓度大幅度增加,比导通电阻进一步降低.仿真结果表明：在保证最高优值条件下,相比传统SOI结构,器件尺寸相同时,新结构的击穿电压提高了123%,比导通电阻降低了32%;击穿电压相同时,新结构的比导通电阻降低了87.5%;相比双槽SOI结构,器件尺寸相同时,新结构不仅保持了双槽结构的高压特性,而且比导通电阻降低了46%.     

具有纵向源极场板的绝缘体上硅器件新结构

采用软件仿真一系列横向双扩散金属氧化物半导体场效应管(Laterally double-diffused metal oxide semiconductor,LDMOS)结构,为缓解绝缘体上硅(Silicon on insulator,SOI)器件的击穿电压VB和漂移区的比导通电阻Ron.sp之间的矛盾关系,提出了一种具有纵向源极场板的双槽SOI新结构。该结构首先采用槽栅结构,以降低比导通电阻Ron.sp;其次,在漂移区内引入SiO_2介质槽,以提高击穿电压VB;最后,在SiO_2介质槽中引入纵向源极场板,进行了电场重塑。通过仿真实验,获得器件表面电场、纵向电场曲线及器件击穿时的电势线和导通时的电流线等。结果表明,新结构的VB较传统LDMOS器件提高了121%,Ron.sp降低了9%,器件优值FOM值达到15.2 MW·cm~(-2)。     

一种RESURF效应增强的高压低阻槽型SOI LDMOS

本文提出一种RESURF效应增强（Enhanced RESURF Effect）的高压低阻SOI LDMOS（ER-LDMOS）新结构,并研究其工作机理。ER-LDMOS的主要特征是：漂移区中具有氧化物槽;氧化物槽靠近体区一侧具有P条;氧化物槽下方的N型漂移区中具有埋P层。首先,从体区延伸到氧化物槽底部的P条,不仅起到纵向结终端扩展的作用,而且具有纵向RESURF效果,此二者都优化体内电场分布且提高漂移区掺杂浓度;其次,埋P层在漂移区中形成triple RESURF效果,能够进一步优化体内电场并降低导通电阻;第三,漂移区中的氧化物槽沿纵向折叠漂移区,减小了器件元胞尺寸,进一步降低比导通电阻;第四,P条、埋P层、氧化物槽和埋氧层对N型漂移区形成多维耗尽作用,实现增强的RESURF效应,可达到提高漂移区掺杂浓度与优化电场分布的目的,从而降低导通电阻且提高器件耐压。仿真结果表明,在相同的器件尺寸参数下,与常规槽型SOI LDMOS相比,ER-LDMOS击穿电压提高67%,比导通电阻降低91%。     

一种带氧化槽的双栅LDMOS

提出了一种带氧化槽的双栅体硅LDMOS结构(DGT LDMOS).在漂移区中引入一个氧化槽,在该槽上形成埋栅,同时形成一个槽栅.首先,双栅形成双导电沟道,减小了比导通电阻;其次,氧化槽折叠了漂移区,这不仅调制了电场的分布,而且提高了漂移区的优化浓度,有效提高了击穿电压,降低了比导通电阻.采用二维数值仿真软件MEDICI,对器件参数进行仿真和优化设计.结果表明,相对于普通体硅LDMOS(SG LDMOS),该结构的比导通电阻下降了56.9％,击穿电压提高了82.4％.在相同尺寸和击穿电压下,相对于单槽栅体硅LDMOS(SGT LDMOS),DGT LDMOS的比导通电阻下降了35.4％.     

SOI高压MOSFET的电流-电压特性模拟

在不同漂移区浓度分布下 ,通过二维数值模拟充分地研究了薄膜 SOI高压 MOSFET击穿电压的浓度相关性 ,指出了击穿优化对 MOSFET漂移区杂质浓度分布的要求。分析了MOSFET的电场电位分布随漏源电压的变化 ,提出寄生晶体管击穿有使 SOI MOSFET击穿降低的作用。     

150 V电荷耦合功率MOSFET的仿真

电荷耦合是适用于中等电压功率MOSFET设计的先进设计理念之一,该设计思想旨在改善器件阻断态下的电场分布从而提高耐压。针对150 V电荷耦合功率MOSFET双外延漂移区(分别为电荷耦合区N1区与非耦合区N2区)电荷匹配问题进行了仿真优化研究,结果表明:N1区和N2区浓度分别约为2.2×1016cm-3和4.5×101 5cm-3时,电场分布更加均匀、耐压更高,且比导通电阻仅为1.306 mΩ·cm2,即击穿电压和比导通电阻间达到最佳匹配。同时,还针对器件不同槽深进行了静态特性和动态特性的整体仿真优化研究,结果表明:槽深在7~9μm时,器件满足耐压要求且击穿电压随双漂移区掺杂浓度匹配程度变化较为平稳。最后,优化结构与传统槽栅MOSFET相比,其栅漏电容和栅电荷大幅降低,器件优值降低了约87%。     

一种100V分离栅沟槽MOSFET的优化设计北大核心CSCD

把多个侧壁阶梯氧化层应用于分离栅沟槽MOSFET(Split-Gate Trench MOSFET,SGT结构),并把改进的结构称为多阶梯侧壁氧化层分离栅沟槽MOSFET(Multi-Step Sidewall Oxides Split-Gate Trench MOSFET,MSO结构),之后介绍了MSO结构的器件结构和制备工艺,重点借助TCAD仿真软件对MSO结构的外延层掺杂浓度、顶部侧氧厚度与底部侧氧厚度进行优化,最终仿真得到击穿电压为126V,特征导通电阻为30.76mΩ·mm^2和特征栅漏电荷为0.351nC·mm^(-2)的MSO结构.在近似相等的击穿电压下,与传统SGT结构相比,MSO结构的特征导通电阻及特征栅漏电荷均有所降低,这两项参数综合反映器件的优值(FOM=Qgd,sp×RonA)降低了39.6%.     

新型薄膜SOI高压MOSFET的研制

研制了两种薄膜SOI高压MOSFET,一种是一般结构,另一种是新的双漂移区结构.两者的栅宽均为760μm,有源区面积为8.58×10-2mm2,测试表明其击穿电压分别为17V和26V,导通电阻分别为80Ω和65Ω.     

Curved crystal spectrometer for the measurement of X-ray lines from laser-produced plasmas

In order to diagnose the laser-produced plasmas, a focusing curved crystal spectrometer has been developed for measuring the X-ray lines radiated from a laser-produced plasmas. The design is based on the fact that the ray emitted from a source located at one focus of an ellipse will converge on the other focus by the reflection of the elliptical surface. The focal length and the eccentricity of the ellipse are 1350 mm and 0.9586, respectively. The spectrometer can be used to measure the X- ray lines in the wavelength range of 0.2-0.37 nm, and a LiF crystal （200） （2d = 0.4027 nm） is used as dispersive element covering Bragg angle from 30° to 67.5°. The spectrometer was tested on Shengnang- Ⅱ which can deliver laser energy of 60-80 J/pulse and the laser wavelength is 0.35 μm. Photographs of spectra including the 1 s2p ^1P1-1s^2 ^1S0 resonance line（w）, the 1s2p ^3P2-1s^2 1S0 magnetic quadrupole line（x）, the 1s2p ^3P1-1 s^2 ^1S0 intercombination lines（y）, the 1 s2p ^3S~1-1 s^2 ^1S0 forbidden line（z） in helium-like Ti Ⅹ Ⅺ and the 1 s2s2p ^2P3/2-1 s622s ^2S1/2 line（q） in lithium-like Ti Ⅹ Ⅹhave been recorded with a X-ray CCD camera. The experimental result shows that the wavelength resolution（λ/△ 2） is above 1000 and the elliptical crystal spectrometer is suitable for X-ray spectroscopy.     

Preparation and Characterization of TaN ALD Precursors

High purity organic-tantalum precursors for thin film ALD TaN were synthesized and characterized.Vapor pressure and thermal stability of these precursors were studied.From the vapor pressure analysis,it was found that TBTEMT has a higher vapor pressure than any other published liquid TaN precursor,including TBTDET,TAITMATA,and IPTDET.Thermal stability of the alkyl groups on the precursors was investigated using a 1H NMR technique.The results indicated that the tertbutylimino group is the most stable group on TBTDET and TBTEMT as compared to the dialkylamido groups.Thermal stability of TaN precursors decreased in the following order:TBTDET ＞ PDMAT ＞ TBTEMT.In conclusion,precursor vapor pressure and thermal stability were tuned by making slight variations in the ligand sphere around the metal center.     

Electronic Structure of Semiconductor Nanocrystals

This paper reviews our recent development of the use of the large-scale pseudopotential method to calculate the electronic structure of semiconductor nanocrystals, such as quantum dots and wires, which often contain tens of thousands of atoms. The calculated size-dependent exciton energies and absorption spectra of quantum dots and wires are in good agreement with experiments. We show that the electronic structure of a nanocrystal can be tuned not only by its size,but also by its shape. Finally,we show that defect properties in quantum dots can be significantly different from those in bulk semiconductors.     

Critical Stage Rule-Based Real Time Dispatch（RTD）System in Highly-Mixed-Products （HMP） FAB

An improving utilization and efficiency of critical equipments in semiconductor wafer fabrication facilities are concerned. Semiconductor manufacturing FAB is one of the most complicated and cost sensitive environments. A good dispatching tool will make big difference in equipment utilization and FAB output as a whole. The equipment in this paper is In-Line DUV Scanner. There are many factors impacting utilization and output on this equipment group. In HMP environment one of the issues is changing of reticule in this area and idle counts due to load unbalance between equipments. Here we'll introduce a rule-based RTD system which aiming at decreasing the number of recipe change and idle counts among a group of scanner equipment in a high-mixed-products FAB.     

GaAsSb/InAlAs PA DHBTs Grown by Production MBE

The epi material growth of GaAsSb based DHBTs with InAlAs emitters are investigated using a 4 × 100mm multi-wafer production Riber 49 MBE reactor fully equipped with real-time in-situ sensors including an absorption band edge spectroscope and an optical-based flux monitor. The state-of-the-art hole mobilities are obtained from 100nm thick carbon-doped GaAsSb. A Sb composition variation of less than ± 0.1 atomic percent across a 4 × 100mm platen configuration has been achieved. The large area InAlAs/GaAsSb/InP DHBT device demonstrates excellent DC characteristics,such as BVCEO＞6V and a DC current gain of 45 at 1kA/cm2 for an emitter size of 50μm × 50μm. The devices have a 40nm thick GaAsSb base with p-doping of 4. 5 × 1019cm-3 . Devices with an emitter size of 4μm × 30μm have a current gain variation less than 2% across the fully processed 100mm wafer. ft and fmax are over 50GHz,with a power efficiency of 50% ,which are comparable to standard power GaAs HBT results. These results demonstrate the potential application of GaAsSb/InP DHBT for power amplifiers and the feasibility of multi-wafer MBE for mass production of GaAsSb-based HBTs.     

Influence of polarization extinction ratio on distributed polarization coupling detection

Distributed polarization coupling in polarization-maintaining fibers can be detected by using a white light Michelson interferometer. This technique usually requires that only one polarization mode is excited. However, in practical measurement, the injection polarization direction could not be exactly aligned to one of the principal axes of the PMF, so the influence of the polarization extinction ratio should be considered. Based on the polarization coupling theory, the influence of the incident polarization extinction on the measurement result is evaluated and analyzed, and a method for distributed polarization coupling detection is developed when both two orthogonal eigenmodes are excited.     

Noise character analysis and the restraint of self-pulsation laser diodes

We calculate the Langevin noise sources of self-pulsation laser diodes, analyze the effects of active region noise and saturable-absorption region noise on the power fluctuation as well as period fluctuation, and propose a novel method to restrain the noise effects. A visible SIMULINK model is established to simulate the system, The results indicate that the effects of noise in absorption region can be ignored; that with the increase of DC injecting current, the noise effects enhance power jitter, and nevertheless, the period jitter is decreased; and that with external sinusoidal current modulating the self-pulsation laser diode, the noise-induced power jitter and period jitter can be suppressed greatly. This work is valuable for clock recovery in all-optical network.     

High-quality single-crystal CdSe nanoribbons and their optical properties

Large-scale synthesis of single-crystal CdSe nanoribbons is achieved by a modified thermal evaporation method, in which two-step-thermal-evaporation is used to control CdSe sources＇ evaporation. The synthesized CdSe nanoribbons are usually several micrometers in width, 50 nm in thickness, and tens to several hundred micrometers in length. Studies have shown that high-quality CdSe nanoribbons with regular shapes can be obtained by this method. Room-temperature photolumines-cence indicates that the lasing emission at 710 nm has been observed under optical pumping （266 nm） at power densities of 25-153 kW/cm^2. The full width half maximum （FWHM） of the lasing mode is 0.67 nm     

Propagation of hermite-cosh-gaussian beams passing through ABCD optical system with an annular aperture

By using the expansion of the aperture function into a finte sum of complex Gaussian functions, the corresponding analytical expressions of Hermite-cosh-Gaussian beams passing through annular apertured paraxially and symmetrically optical systems written in terms of ABCD matrix were derived, and they could reduce to the cases with squared aperture. In a similar way, the corresponding analytical expressions of cosh-Gaussian beams through annular apertured ABCD matrix were also given. The method could save more calculation time than that by using the diffraction integral formula directly.     

中国建立EB级存储实验室,致力云计算应用(英文)

正With the support of 863 programs,Sugon Information Industry Co.,Ltd.,set up a dawning EB-class storage laboratory to address massive data storage requirements and largescale cloud computing demonstration applications.The Dawning EB-class cloud storage system adopts advanced fault-tolerant architecture,efficient data fault-tolerant algorithms with user authentication and data encryption policies to deal with the"lost""wrong"and"stolen"problems of data for ensuring the reliability and safety of the EB-class storage system in the public network application environments.The Dawning EB-class Storage Laboratory taking advan-