this is for holding javascript data
Sergio Pineda edited section_Transistors_GaAs_NW_have__.tex
about 9 years ago
Commit id: a6f55d945384a747d272e3158fffa44d37af3d21
deletions | additions
diff --git a/section_Transistors_GaAs_NW_have__.tex b/section_Transistors_GaAs_NW_have__.tex
index 8b870d7..cb8395b 100644
--- a/section_Transistors_GaAs_NW_have__.tex
+++ b/section_Transistors_GaAs_NW_have__.tex
...
\section{Transistors}
GaAs NW have high charge carrier mobility, a desirable trait for devices such as microchips, which has historically been dominated by Si technology. Miao and coworkers have recently done record breaking work by creating GaAs NW arrays in planar (as opposed to typical vertical) form for T-gated high electron mobility transistors
(HEMTs). (HEMTs).\cite{Miao_2014} A 1.5x1.5 $cm^2$ chip with 115 planar HEMTS was fabricated and characterized in terms of its DC current-voltage characteristics and radio frequency (RF) performance. Grwoth methods included etching alignment markers on a GaAs substrate with iductively coupled plasma, depositing Au seeds (100nm diameter
and300nm and 300nm seperation distance) and VLS growth. Characterization testing found $\frac{f_t}{f_{max}}=\frac{33}{75}GHz$ and $\frac{I_{on}}{I^{off}}=10^4$. The GaAs NW chip greatly outperfroms other current NW, carbon nanotube, or graphene Field Effect Transistors (FET) (Figure \ref{fig:best}).
\cite{Miao_2014}