Inductive Type Impedance of Mo/n-Si Barrier Structures Irradiated with Alpha Particles

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION
N. Poklonski, A. Kovalev, K. V. Usenko, E. A. Ermakova, N. Gorbachuk, S. Lastovski
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Abstract

In silicon microelectronics, flat metal spirals are formed to create an integrated inductance. However, the maximum specific inductance of such spirals at low frequencies is limited to a value of the order of tens of microhenries per square centimeter. Gyrators, devices based on operational amplifiers with approximately the same specific inductance as spirals, are also used. Despite the fact that such solutions have been introduced into the production of integrated circuits, the task of searching for new elements with high values of specific inductance is relevant. An alternative to coils and gyrators can be the effect of negative differential capacitance (i.e., inductive type impedance), which is observed in barrier structures based on silicon.The purpose of the work is to study the low-frequency impedance of Schottky diodes (Mo/n-Si) containing defects induced by α-particles irradiation and determination of the parameters of these defects by methods of low-frequency impedance spectroscopy and DLTS (Deep Level Transient Spectroscopy).Unpackaged Schottky diodes Mo/n-Si (epitaxial layer of 5.5 μm thickness and resistivity of 1 Ohm∙cm) produced by JSC “Integral” are studied. Inductance measurements were carried out on the as manufactured diodes and on the diodes irradiated with alpha particles (the maximum kinetic energy of an αparticle is 5.147 MeV). The impedance of inductive type of the Schottky diodes at the corresponding DC forward current of 10 µA were measured in the AC frequency range from 20 Hz to 2 MHz. DLTS spectra were used to determine the parameters of radiation-induced defects. It is shown that irradiation of diodes with alpha particles produces three types of radiation-induced defects: A-centers with thermal activation energy of E1 ≈ 190 meV, divacancies with activation energies of E2 ≈ 230 meV and E3 ≈ 410 meV, and Ecenters with activation energy of E4 ≈ 440 meV measured relative to the bottom of c-band of silicon.
α粒子辐照Mo/n-Si势垒结构的电感阻抗
在硅微电子学中,形成扁平的金属螺旋以产生集成电感。然而,在低频率下,这种螺旋的最大比电感被限制在每平方厘米几十微亨利的数量级。旋转器,基于运算放大器的装置,具有与螺旋近似相同的比电感,也被使用。尽管这样的解决方案已经被引入到集成电路的生产中,但寻找具有高比电感值的新元件的任务是相关的。线圈和旋转器的替代方案可以是负差分电容(即电感式阻抗)的影响,这在基于硅的势垒结构中可以观察到。研究了α-粒子辐照下含Mo/n-Si肖特基二极管(Mo/n-Si)缺陷的低频阻抗,并利用低频阻抗谱和DLTS (Deep Level Transient spectroscopy)方法测定了这些缺陷的参数。研究了JSC“Integral”公司生产的非封装肖特基二极管Mo/n-Si(外延层厚度5.5 μm,电阻率为1欧姆∙cm)。对制备的二极管和α粒子辐照二极管(α粒子的最大动能为5.147 MeV)进行了电感测量。在交流频率20 Hz ~ 2 MHz范围内,测量了相应直流正向电流为10 μ A时感应型肖特基二极管的阻抗。DLTS光谱用于确定辐射缺陷的参数。结果表明,用α粒子辐照二极管产生三种类型的辐射诱导缺陷:a中心的热活化能为E1≈190 meV,缺口的活化能为E2≈230 meV和E3≈410 meV,中心的活化能为E4≈440 meV。
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
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审稿时长
8 weeks
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