【摘 要】
:
An atomic-level controlled etching (ACE) technology is invstigated for the fabrication of recessed gate AlGaN/GaN high-electron-mobility transistors (HEMTs) with high power added efficiency.We compare the recessed gate HEMTs with conventional etching (CE)
【机 构】
:
School of Advanced Materials and Nanotechnology,Xidian University,Xi’an 710071,China;School of Micro
论文部分内容阅读
An atomic-level controlled etching (ACE) technology is invstigated for the fabrication of recessed gate AlGaN/GaN high-electron-mobility transistors (HEMTs) with high power added efficiency.We compare the recessed gate HEMTs with conventional etching (CE) based chlorine,Cl2-only ACE and BCl3/Cl2 ACE,respectively.The mixed radicals of BCl3/Cl2 were used as the active reactants in the step of chemical modification.For ensuring precise and controllable etching depth and low etching damage,the kinetic energy of argon ions was accurately controlled.These argon ions were used precisely to remove the chemical modified surface atomic layer.Compared to the HEMTs with CE,the characteristics of devices fabricated by ACE are significantly improved,which benefits from significant reduction of etching damage.For BCl3/Cl2 ACE recessed HEMTs,the load pull test at 17 GHz shows a high power added efficiency (PAE) of 59.8% with an output power density of 1.6 W/mm at Vd =10 V,and a peak PAE of 44.8% with an output power density of 3.2 W/mm at Vd =20 V in a continuous-wave mode.
其他文献
Molecular dynamics simulations were used to investigate the influence of pressure on the structural properties and dynamics of magnesium (Mg) during rapid solidification.The dynamics analysis revealed that,with an increase in pressure,the dynamics of Mg m
Most amorphous carbon (a-C) applications require films with ultra-thin thicknesses;however,the electronic structure and opto-electronic characteristics of such films remain unclear so far.To address this issue,we developed a theoretical model based on the
Instantaneous and precise velocity sensing is a critical part of research on detonation mechanism and flow evolution.This paper presents a novel multi-projection tunable diode laser absorption spectroscopy solution,to provide a real-time and reliable meas
Two novel non-isoelectronic with diamond (non-IED) B-C-O phases (tI16-B8C6O2 and mP16-B8C5O3) have been unmasked.The research of the phonon scattering spectra and the independent elastic constants under ambient pressure(AP) and high pressure (HP) proves t
Structural stability in terms of the decomposition temperature in LiMn2O4 was systematically investigated by a series of high-temperature and high-pressure experiments.LiMn2O4 was found to have structural stability up to 5 GPa at room temperature.Under am
We analytically and numerically study a 1D tight-binding model with tunable incommensurate potentials.We utilize the self-dual relation to obtain the critical energy,namely,the mobility edge.Interestingly,we analytically demonstrate that this critical ene
The lead-free perovskites Cs3B2X9 (B =Sb,Bi;X =Cl,Br,I) as the popular photoelectric materials have excellent optical properties with lower toxicity.In this study,we systematically investigate the stable monolayer Cs3B2X9 and bilayer vertical heterostruct
Heavy elements (X =Ta/W/Re) play an important role in the performance of superalloys,which enhance the strength,anti-oxidation,creep resistance,and anti-corrosiveness of alloy materials in a high-temperature environment.In the present research,the heavy e
Divalent metal clusters have received great attention due to the interesting size-induced nonmetal-to-metal transition and fascinating properties dependent on cluster size,shape,and doping.In this work,the combination of the CALYPSO code and density funct
We demonstrated an AlGaN/GaN high electron mobility transistor (HEMT) namely double-Vth coupling HEMT(DVC-HEMT) fabricated by connecting different threshold voltage (Vth) values including the slant recess element and planar element in parallel along the g