InxGa1−xAs的欧姆接触接近量子电导率极限

J. Law, A. Carter, S. Lee, A. Gossard, M. Rodwell
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引用次数: 2

摘要

我们报道了在III-V型mosfet中为表征源极和漏极通路电阻而设计的测试结构中,源极-漏极再生和底层半导体量子阱通道之间的接触电阻。再生包括N+ InAs和N+分级InAs- inxga1 - xas;通道材料包括未应变In0.53Ga0.47As和未应变InAs。电阻率与二维电子气体的载流子浓度密切相关,符合量子输运理论,但不符合经典输运理论。随着InAs触点的源漏再生长到InAs通道,总接入电阻在Landauer量子态限制电导的倒数的两倍之内[1-3]。TLM结构中的状态限制电导和弹道MOSFET的跨电导都是由相同的物理过程产生的,因此TLM电阻中的兰道尔项对MOSFET源通路电阻没有贡献。因此,将TLM数据应用于晶体管表征必须校正状态限制的存取电阻率。具有高5·1014/cm2载流子浓度的触点再生到通道上的样品具有较低的量子态限制电阻,其电阻率极低,为12.7 Ω-μm。这证明了MBE再生在III-V型MOS技术的源/漏形成中的效用。
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Regrown ohmic contacts to InxGa1−xAs approaching the quantum conductivity limit
We report contact resistances between source-drain regrowth and underlying semiconductor quantum well channels in test structures designed for characterization of source and drain access resistances in III-V MOSFETs. Regrowths included both N+ InAs and N+ graded InAs-InxGa1-xAs; channel materials included both unstrained In0.53Ga0.47As and unstrained InAs. The access resistivity correlates strongly with the sheet carrier concentration of the 2-dimensional electron gas, consistent with quantum- but not classical- transport theory. With source-drain regrowth of InAs contacts to InAs channels, the total access resistance is within a factor of two of the inverse of Landauer's quantum-state-limited conductance [1-3]. The state-limited conductance in TLM structures and the ballistic MOSFET transconductance both arise from the same physical process, hence the Landauer term in the TLM resistance does not contribute to the MOSFET source access resistance. Application of TLM data to transistor characterization must therefore correct for the state-limited access resistivity. Samples with contacts regrown onto channels with high 5·1014/cm2 sheet carrier concentration, hence low quantum-state-limited resistance, showed extremely low 12.7 Ω-μm access resistivity. This demonstrates the utility of MBE regrowth for source/drain formation in III-V MOS technology.
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