Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications
We present a performance enhancement evaluation of n þ doped graded InGaN drain/source regionbased HfO2/InAlN/AlN/GaN/AlN on SiC metal-oxide-semiconductor high electron mobility transistor (MOS-HEMTs) with a T-shaped gate. Impact on the device characteristics with the inclusion of a HfO2 surface pas...
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oai:112.137.131.14:VNU_123-893142020-07-30T08:38:22Z Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications Murugapandiyan, P. Mohanbabu, A. Lakshmi, V. Rajya Ramakrishnan, V.N. Varghese, Arathy Wasim, MOHD Baskaran, S. Kumar, R. Saravana Janakiraman, V. MOS-HEMT HfO2 JFoM Microwave applications Cut-off frequency Leakage current We present a performance enhancement evaluation of n þ doped graded InGaN drain/source regionbased HfO2/InAlN/AlN/GaN/AlN on SiC metal-oxide-semiconductor high electron mobility transistor (MOS-HEMTs) with a T-shaped gate. Impact on the device characteristics with the inclusion of a HfO2 surface passivation layer and an AlN buffer layer in the MOS-HEMT structure as a performance booster has been analyzed for the HEMT device with 30 nm gate length using Silvaco ATLAS TCAD. The proposed MOS-HEMT exhibits an outstanding performance, with an enhanced power gain cut-off frequency (fmax) of 366 GHz, a current gain cut-off frequency (ft) of 426 GHz, and a off-state breakdown voltage (Vbr) of 81 V. The high-k (high permittivity) HfO2 based metal oxide semiconductor HEMT device experiences a low off-state gate leakage current (Ig ~ 10 11A/mm) and a high Ion/Ioff ratio of 109. The InAlN/GaN/AlN heterostructures demonstrate improved two-dimensional electron gas (2DEG ~ 5.3 1013 cm 2), carrier mobility (m) of 1256 Cm2/V-s and drain current density of (Ids) 2.7 A/mm. A large signal analysis performed at 30 GHz yielded a maximum of 28% power-added efficiency. The high JFoM of 34.506 THz V (Johnson Figure of Merit ¼ ft Vbr) and (ft.fmax)1/2 of 394.86 GHz indicate the potential applicability of the HfO2/InAlN/GaN MOS-HEMTs in high-frequency and high-power applications. 2020-07-30T08:38:22Z 2020-07-30T08:38:22Z 2020 Article Murugapandiyan, P., et al. (2020). Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications.Journal of Science: Advanced Materials and Devices 5 (2020) 192-198. 2468-2179 http://repository.vnu.edu.vn/handle/VNU_123/89314 https://doi.org/10.1016/j.jsamd.2020.04.007 en Journal of Science: Advanced Materials and Devices; application/pdf H. : ĐHQGHN |
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MOS-HEMT HfO2 JFoM Microwave applications Cut-off frequency Leakage current |
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MOS-HEMT HfO2 JFoM Microwave applications Cut-off frequency Leakage current Murugapandiyan, P. Mohanbabu, A. Lakshmi, V. Rajya Ramakrishnan, V.N. Varghese, Arathy Wasim, MOHD Baskaran, S. Kumar, R. Saravana Janakiraman, V. Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| description |
We present a performance enhancement evaluation of n þ doped graded InGaN drain/source regionbased HfO2/InAlN/AlN/GaN/AlN on SiC metal-oxide-semiconductor high electron mobility transistor (MOS-HEMTs) with a T-shaped gate. Impact on the device characteristics with the inclusion of a HfO2 surface passivation layer and an AlN buffer layer in the MOS-HEMT structure as a performance booster
has been analyzed for the HEMT device with 30 nm gate length using Silvaco ATLAS TCAD. The proposed MOS-HEMT exhibits an outstanding performance, with an enhanced power gain cut-off frequency (fmax) of 366 GHz, a current gain cut-off frequency (ft) of 426 GHz, and a off-state breakdown voltage (Vbr) of 81 V. The high-k (high permittivity) HfO2 based metal oxide semiconductor HEMT device experiences a low off-state gate leakage current (Ig ~ 10 11A/mm) and a high Ion/Ioff ratio of 109. The InAlN/GaN/AlN heterostructures demonstrate improved two-dimensional electron gas (2DEG ~ 5.3 1013 cm 2), carrier mobility (m) of 1256 Cm2/V-s and drain current density of (Ids) 2.7 A/mm. A large signal analysis performed at 30 GHz yielded a maximum of 28% power-added efficiency. The high JFoM of 34.506 THz V (Johnson Figure of Merit ¼ ft Vbr) and (ft.fmax)1/2 of 394.86 GHz indicate the potential applicability of the HfO2/InAlN/GaN MOS-HEMTs in high-frequency and high-power applications. |
| format |
Article |
| author |
Murugapandiyan, P. Mohanbabu, A. Lakshmi, V. Rajya Ramakrishnan, V.N. Varghese, Arathy Wasim, MOHD Baskaran, S. Kumar, R. Saravana Janakiraman, V. |
| author_facet |
Murugapandiyan, P. Mohanbabu, A. Lakshmi, V. Rajya Ramakrishnan, V.N. Varghese, Arathy Wasim, MOHD Baskaran, S. Kumar, R. Saravana Janakiraman, V. |
| author_sort |
Murugapandiyan, P. |
| title |
Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| title_short |
Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| title_full |
Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| title_fullStr |
Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| title_full_unstemmed |
Performance analysis of HfO2/InAlN/AlN/GaN HEMT with AlN buffer layer for high power microwave applications |
| title_sort |
performance analysis of hfo2/inaln/aln/gan hemt with aln buffer layer for high power microwave applications |
| publisher |
H. : ĐHQGHN |
| publishDate |
2020 |
| url |
http://repository.vnu.edu.vn/handle/VNU_123/89314 https://doi.org/10.1016/j.jsamd.2020.04.007 |
| _version_ |
1680966925929152512 |