隐埋层中二维效应对全耗尽SOI非对称HALO结构阈值电压的影响

在非对称HALO结构的全耗尽SOI二维阈值电压解析模型的基础上,对阈值电压受隐埋层中二维效应的影响进行了讨论.通过与一维模型的比较,说明在深亚微米SOI MOSFET器件中隐埋层的二维效应会导致器件提前出现短沟道效应.新模型结果与二维数值模拟软件MEDICI吻合较好.     

隐埋层中二维效应对全耗尽SOI非对称HALO结构阈值电压的影响

在非对称HALO结构的全耗尽SOI二维阈值电压解析模型的基础上,对阈值电压受隐埋层中二维效应的影响进行了讨论.通过与一维模型的比较,说明在深亚微米SOI MOSFET器件中隐埋层的二维效应会导致器件提前出现短沟道效应.新模型结果与二维数值模拟软件MEDICI吻合较好.     

一种非对称双栅应变硅HALO掺杂沟道MOSFET阈值电压解析模型

提出了一种非对称双栅应变硅HALO掺杂沟道金属氧化物半导体场效应管结构.该器件前栅和背栅由两种不同功函数的金属构成,沟道为应变硅HALO掺杂沟道,靠近源区为低掺杂区域,靠近漏区为高掺杂区域.采用分区的抛物线电势近似法和通用边界条件求解二维泊松方程,分别求解了前背栅表面势、前背栅表面电场及前背栅阈值电压,建立了双栅器件的表面势、表面电场和阈值电压解析模型.详细讨论了物理参数对解析模型的影响.研究结果表明,该器件能够很好的抑制短沟道效应、热载流子效应和漏致势垒降低效应.模型解析结果与DESSIS仿真结果吻合较好,证明了该模型的正确性.     

An Analytical Threshold Voltage Model for Fully Depleted SOI MOSFETs

提出了一种新的全耗尽SOI MOSFETs阈值电压二维解析模型.通过求解二维泊松方程得到器件有源层的二维电势分布函数,氧化层-硅界面处的电势最小值用于监测SOI MOSFETs的阈值电压.通过对不同栅长、栅氧厚度、硅膜厚度和沟道掺杂浓度的SOI MOSFETs的MEDICI模拟结果的比较,验证了该模型,并取得了很好的一致性.     

全耗尽SOI MOSFETs阈值电压解析模型

提出了一种新的全耗尽SOI MOSFETs阈值电压二维解析模型.通过求解二维泊松方程得到器件有源层的二维电势分布函数,氧化层-硅界面处的电势最小值用于监测SOI MOSFETs的阈值电压.通过对不同栅长、栅氧厚度、硅膜厚度和沟道掺杂浓度的SOI MOSFETs的MEDICI模拟结果的比较,验证了该模型,并取得了很好的一致性.     

应变SiGe沟道PMOSFET阈值电压模型

首先建立了应变SiGe沟道PMOSFET的一维阈值电压模型,在此基础上,通过考虑沟道横向电场的影响,将其扩展到适用于短沟道的准二维阈值电压模型,与二维数值模拟结果呈现出好的符合。利用此模型,模拟分析了各结构参数对器件阈值电压的影响,并简要讨论了无Sicap层器件的阈值电压。     

全耗尽SOI LDMOS阈值电压的解析模型

通过准二维的方法,求出了全耗尽SOILDMOS晶体管沟道耗尽区电势分布的表达式,并建立了相应的阈值电压模型。将计算结果与二维半导体器件模拟软件MEDICI的模拟结果相比较,两者误差较小,证明了本模型的正确性。从模型中可以容易地分析阈值电压与沟道浓度、长度、SOI硅膜层厚度以及栅氧化层厚度的关系,并且发现ΔVth与背栅压的大小无关。     

非对称异质双栅应变硅MOSFETs 二维模型研究

基于对二维泊松方程的精确求解,本文对全耗尽型非对称异质双栅应变硅MOSFET的二维表面势,表面电场,阈值电压进行了研究。模型结果和二维数值模拟器的结果很吻合。此外并对该器件的物理作了深入的研究。该模型对设计全耗尽型非对称异质双栅应变硅MOSFET器件有着重要的指导作用.     

应变PMOS二维阈值电压解析模型

利用准二维方法求解二维泊松方程,建立了锗硅源漏单轴应变PMOS阈值电压的二维解析模型,理论计算结果和实验报道的结果能很好吻合。研究了不同沟道长度和漏压情况下的沟道表面势,分析了沟道长度、漏压及锗硅源漏中锗摩尔组分等参数对阈值电压的影响。利用TCAD工具进行仿真模拟,结果表明,沟道长度和漏压是单轴应变PMOS阈值电压漂移的主要影响因素,而锗摩尔组分在一定成分范围内影响较小。     

全耗尽SOI MOSFETs阈值电压和电势分布的温度模型

提出了一个全耗尽SOI MOSFETs器件阈值电压和电势分布的温度模型.基于近似的抛物线电势分布模型,利用适当的边界条件对二维的泊松方程进行求解.同时利用阈值电压的定义得到了阈值电压的模型.该温度模型详细地研究了电势分布和阈值电压跟温度之间的变化关系,同时还近似地探讨了短沟道效应.为了进一步验证模型的正确性,利用SILVACO ATAS软件进行了相应的模拟.结果表明,模型计算与软件模拟吻合较好.     

Analytical I–V model of SOI and SON MOSFETs: a comparative analysis

A generalised three-interface compact capacitive threshold voltage model for horizontal silicon-on-insulator/silicon-on-nothing (SOI/SON) MOSFET has been developed. The model includes different threshold voltage-modifying short-channel phenomena like fringing field, junction-induced 2D-effects, etc. Based on the threshold voltage model, an analytical current voltage model is formulated from the basic charge control analysis of MOSFET. In order to provide a better explanation to various observations and applicable to short-channel SOI and SON structures, the present current voltage model includes the effect of carrier velocity saturation and channel length modulation. Identical structures for both the devices, SOI and SON, are considered but for SON MOSFET, the buried oxide layer is replaced by air. The performance of the two devices are studied and compared in terms of threshold voltage roll-off, subthreshold slope, drain current and drain conductance. The SON MOSFET technology is found to offer devices with further scalability and enhanced performance in terms of threshold voltage roll-off, sub-threshold slope and greater current derivability, thereby providing scope for further miniaturisation of devices and much better performance improvement.     

Possible influence of the Schottky contacts on the characteristics of ultrathin SOI pseudo-MOS transistors

The paper describes the impact of pseudo-MOS technique on threshold and flatband voltages, and why the threshold and flatband voltages depend on silicon-on-insulator (SOI) layer thickness. Our measurements and simulations suggest that the band-offset-induced depletion beneath the source contact obstructs the local formation of the inversion layer at the SOI/buried oxide interface; this effect becomes significant when the SOI layer thickness is reduced. The SOI layer thickness dependence of flatband voltage is analyzed in a similar manner. The temperature dependence of threshold and flatband voltages is also addressed.     

Back gate effects on threshold voltage sensitivity to SOI thicknessin fully-depleted SOI MOSFETs

The dependence of threshold voltage on silicon-on-insulator (SOI) thickness is studied on fully-depleted SOI MOSFETs, and, for this purpose, back-gate oxide thickness and back gate voltage are varied. When the back gate oxide is thinner than the critical thickness dependent on the back gate voltage, the threshold voltage has a minimum in cases where the SOI film thickness is decreased, because of capacitive coupling between the SOI layer and the back gate. This fact suggests that threshold voltage fluctuations due to SOI thickness variations are reduced by controlling the back gate voltage and thinning the back gate oxide     

不同HALO掺杂剂量的超薄栅pMOSFET的退化

研究了热载流子应力下栅厚为2.1nm,栅长为0.135μm的pMOSFET中HALO掺杂剂量与器件的退化机制和参数退化的关系.实验发现,器件的退化机制对HALO掺杂剂量的改变不敏感,但是器件的线性漏电流、饱和漏电流、最大跨导的退化随着HALO掺杂剂量的增加而增加.实验同时发现,器件参数的退化不仅与载流子迁移率的退化、漏串联电阻增大有关,而且与阈值电压的退化和应力前阈值电压有关.     

非均匀厚度漂移区SOI高压器件及其优化设计

提出非均匀厚度漂移区SOI高压器件新结构及其优化设计方法. 非均匀厚度漂移区调制SOI层的电场并增强埋层电场,从而提高器件击穿电压. 考虑到这种调制效应,提出解析模型用以优化设计该新器件的结构参数. 借助解析模型,研究了电场分布和器件击穿电压与结构参数的关系. 数值仿真证实了解析模型的正确性. 具有3阶梯的非均匀厚度漂移区SOI器件耐压为常规结构SOI器件的2倍,且保持较低的导通电阻.     

A two-dimensional analytical-model-based comparative threshold performance analysis of SOI-SON MOSFETs

A generalized threshold voltage model based on two-dimensional Poisson analysis has been developed for SOI/SON MOSFETs. Different short channel field effects, such as fringing fields, junction-induced lateral fields and substrate fields, are carefully investigated, and the related drain-induced barrier-lowering effects are incorporated in the analytical threshold voltage model. Through analytical model-based simulation, the threshold voltage roll-off and subthreshold slope for both structures are compared for different operational and structural parameter variations. Results of analytical simulation are compared with the results of the ATLAS 2D physics-based simulator for verification of the analytical model. The performance of an SON MOSFET is found to be significantly different from a conventional SOI MOSFET. The short channel effects are found to be reduced in an SON, thereby resulting in a lower threshold voltage roll-off and a smaller subthreshold slope. This type of analysis is quite useful to figure out the performance improvement of SON over SOI structures for next generation short channel MOS devices.     

Deep submicrometer double-gate fully-depleted SOI PMOS devices: aconcise short-channel effect threshold voltage model using a quasi-2Dapproach

This paper reports a concise short-channel effect threshold voltage model using a quasi-2D approach for deep submicrometer double-gate fully-depleted SOI PMOS devices. By considering the hole density at the front and the back channels simultaneously, the analytical threshold voltage model provides an accurate prediction of the short-channel threshold voltage behavior of the deep submicrometer double-gate fully-depleted SOI PMOS devices as verified by 2D simulation results. The analytical short-channel effect threshold voltage model can also be useful for SOI NMOS devices     

一种抗总剂量辐照的新型PD SOI器件

提出了一种具有叠层埋氧层的新栅型绝缘体上硅(SOI)器件.针对SOI器件的抗总电离剂量(TID)加固方案,对绝缘埋氧层(BOX)采用了叠层埋氧方案,对浅沟槽隔离(STI)层采用了特殊S栅方案.利用Sentaurus TCAD软件,采用Insulator Fixed Charge模型设置固定电荷密度,基于0.18 μm ...