一种用于高频应用的无金全Cu/Ge金属化GaAs pHEMT

2011 International Siberian Conference on Control and Communications (SIBCON) Pub Date : 2011-11-10 DOI:10.1109/SIBCON.2011.6072650

E. Erofeev, V. Kagadei, A. Kazimirov

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引用次数: 1

摘要

研究了全Cu/Ge金属化GaAs pHEMT和具有Cu/Ge欧姆触点和Ti/Mo/Cu基t栅的pHEMT的直流和射频性能。通过原子氢处理Cu/Ge/GaAs两层体系形成Cu/Ge化合物。实验发现，在密度为1015at的原子氢流中进行这种处理。cm2 s−1在室温下作用5 min, Cu和Ge薄膜在固相中相互扩散，形成晶粒垂直取向的CuGe多晶化合物。具有170 nm t栅极的全Cu/Ge金属化pHEMT的饱和漏极电流Idss = 660 mA/mm，脱态栅极漏极击穿BVgd = 7 V, Vds= 3 V时的跨导峰值Sm = 380 mS/mm。在10 GHz频率下，全Cu/Ge基pHEMT的最大稳定增益约为17.5 dB，在Uds = 3V, Ids = 1/4Idss时，电流增益截止频率约为80 GHz。采用Cu/Ge欧姆触点和Ti/Mo/Cu基170 nm t栅的晶体管具有较差的直流和射频参数。在氮气环境中，在温度T = 250℃下进行了5 ~ 120 min的热稳定性测试。原子氢处理制备的无金全Cu/Ge金属化pHEMT的热稳定性优于具有Cu/Ge欧姆触点和Ti/Mo/Cu T栅的pHEMT。实验结果允许考虑CuGe化合物在GaAs MMIC生产中作为有前途的金替代。

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A gold free fully Cu/Ge metalized GaAs pHEMT for the high frequency applications

The DC and RF performance of the fully Cu/Ge metalized GaAs pHEMT and pHEMT with Cu/Ge ohmic contacts and Ti/Mo/Cu based T-gate were investigated. The Cu/Ge compound was formed by the atomic hydrogen treatment of Cu/Ge/GaAs two layer system. It was found, that such processing in an atomic hydrogen flow with density 10¹⁵ at. cm² s⁻¹ at room temperature during 5 min leads to the solid state interdiffusion of Cu and Ge thin films and polycrystalline CuGe compound formation with the vertically oriented grains. The fully Cu/Ge metalized pHEMT with 170 nm T-gate had a saturation drain current of Idss = 660 mA/mm, off-state gatedrain breakdown of BVgd = 7 V and a transconductance peak Sm = 380 mS/mm at Vds= 3 V. The maximum stable gain of the fully Cu/Ge based pHEMT was about 17,5 dB at frequency 10 GHz and the current gain cut-off frequency was about 80 GHz at Uds = 3V and Ids = 1/4Idss. The transistor with Cu/Ge ohmic contacts and Ti/Mo/Cu based 170 nm T-gate had a worse DC and RF parameters. The thermal stability test of both GaAs pHEMTs was performed in nitrogen environment at a temperature T = 250 °C for a period 5–120 min. The gold free fully Cu/Ge-metalized pHEMT fabricated with an atomic hydrogen treatment demonstrated superior thermal stability performance than the pHEMT with Cu/Ge ohmic contacts and Ti/Mo/Cu T-gate fabricated without atomic hydrogen treatment. The experimental results allow to consider the CuGe compounds, as perspective gold replacement in the GaAs MMIC production.

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2011 International Siberian Conference on Control and Communications (SIBCON)

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