300 nm以下的InGaAs/InP型i型dhbt具有150 nm集热器，30 nm基片，显示755 GHz fmax和416 GHz fT

2007 IEEE 19th International Conference on Indium Phosphide & Related Materials Pub Date : 2007-05-14 DOI:10.1109/ICIPRM.2007.381209

Z. Griffith, E. Lind, M. Rodwell, X. Fang, D. Loubychev, Ying Wu, J. Fastenau, A. Liu

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引用次数: 51

摘要

我们报道了采用简单的台面结构制备的InP/InGaAs/InP双异质结双极晶体管(DHBT)。该器件采用30 nm高掺杂InGaAs基片和150 nm含InGaAs/InAlAs超晶格级的InP集电极。这些器件的最大fmax = 755 GHz，频率为416 GHz /fT。这是报道的台面HBT的最高fmax。通过使用i线光刻技术，发射极结已经从500-600 nm缩小到250-300 nm，同时保持了类似的集电极和发射极面积比。由于随后降低了发射极下方的基极扩散电阻Rb，从较窄结扩散和增加的径向热流，预计并观察到fmax的显著增加和器件热阻θJA的降低。HBT电流增益β≈24-35,BVceo = 4.60 V, BVcbo = 5.34 V，器件工作在20 mW / μm2时才观察到自加热对直流特性的影响。

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Sub-300 nm InGaAs/InP Type-I DHBTs with a 150 nm collector, 30 nm base demonstrating 755 GHz fmax and 416 GHz fT

We report InP/InGaAs/InP double heterojunction bipolar transistors (DHBT) fabricated using a simple mesa structure. The devices employ a 30 nm highly doped InGaAs base and a 150 nm InP collector containing an InGaAs/InAlAs superlattice grade. These devices exhibit a maximum f_max = 755 GHz with a 416 GHz /f_T. This is the highest f_max reported for a mesa HBT. Through the use of i-line lithography, the emitter junctions have been scaled from 500-600 nm down to 250-300 nm -all while maintaining similar collector to emitter area ratios. Because of the subsequent reduction to the base spreading resistance underneath the emitter R_b,spread and increased radial heat flow from the narrower junction, significant increases to f_max and reductions in device thermal resistance θ_JA are expected and observed. The HBT current gain β ≈ 24-35, BV_ceo = 4.60 V, BV_cbo = 5.34 V, and the devices operate up to 20 mW / μm² before self-heating is observed to affect the DC characteristics.

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2007 IEEE 19th International Conference on Indium Phosphide & Related Materials

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