Fabrication and Characterization of Gate-Last Self-Aligned AlN/GaN MISHEMTs With &lt;italic&gt;In Situ&lt;/italic&gt; SiN&lt;sub&gt;&lt;italic&gt;x&lt;/italic&gt;&lt;/sub&gt; Gate Dielectric

Lü, Xing; Ma, Jun; Jiang, Huaxing; Liu, Chao; Xu, Peiqiang; Lau, Kei May

doi:10.1109/ted.2015.2421031

Cited by 23 publications

(7 citation statements)

References 32 publications

(45 reference statements)

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“…This in situ process could prevent the as-grown GaN HEMT barrier layer from being exposed to ambient air, thus effectively eliminating the process-related contamination and damage. Meanwhile, the higher growth temperature and lower deposition rate could obtain better SiN x dielectric quality [7,8]. Nevertheless, limited thickness of the strained SiN x on AlGaN is a critical issue for realizing its fundamental benefits as expected [7].…”

Section: Introductionmentioning

confidence: 99%

Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

Cheng

Pan

et al. 2019

J. Phys. D: Appl. Phys.

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In the research of passivation/gate dielectrics for AlGaN/GaN based high electron mobility transistors (HEMTs), in situ SiNx has specific advantages over ex situ SiNx in terms of lower defects level and higher dielectric quality. In this paper, an in situ grown SiNx layer as thick as 47 nm was deposited on AlGaN/GaN heterostructure by metalorganic chemical vapor deposition, with capabilities of functioning simutanously as passivation and gate dielectrics verified. Systematical investigations have been performed on the in situ SiNx in aspects of bulk dielectric quality, interface property and dielectric reliability. Correspondingly, high leakage suppression ability with leakage current <10−8 A cm−2 at 125 °C, near-ideal dielectric breakdown strength of ~13.2 MV cm−1, high interface quality with state density of ~3.0 × 1012 eV−1 cm−2 have been revealed. In the dielectric reliability analysis, a maximum forward bias as high as 19.5 V (~3.66 MV cm−1) for a ten-year lifetime at the failure level of 0.01% was obtained. Subsequent experiments also revealed the gate-first process compatibility of this high-quality in situ SiNx, providing additional process convenience and design flexibility for AlGaN/GaN HEMTs.

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Section: Introductionmentioning

confidence: 99%

Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

Cheng

Pan

et al. 2019

J. Phys. D: Appl. Phys.

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“…A lot of efforts have been applied in HEMT fabrications for better device performance, including selective etching, , self-aligned gate, , source and drain regrowth, – etc. Among them, source and drain selective regrowth is valued for its low contact resistance in GaN HEMTs, which requires high electron concentrations and a flat surface.…”

Section: Introductionmentioning

confidence: 99%

AlN/GaN HEMTs with f_max Exceeding 300 GHz by Using Ge-Doped n⁺⁺GaN Ohmic Contacts

Yang,

Huang,

Wang

et al. 2023

ACS Appl. Electron. Mater.

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“…For high-speed device application, different dielectric materials (Al 2 O 3 [10][11][12][13][14][15][16][17][18][19], HfO 2 [20][21][22], SiN [23][24][25][26][27], SiO 2 [28], TiO 2 [29], MgCaO [30], ZnO [31], et al) have been investigated as the gate dielectric in GaN MISHEMTs. The relevant device performance, such as maximum drain current (I d,max ) of 2.4 A mm −1 [32], on/off current ratio (I ON /I OFF ) of 5 × 10 8 [30], transconductance (g m ) of 653 mS mm −1 [11], f T /f max of 190/300 GHz [20], and Johnson's figure-of-merit (JFOM) of 10.8 THz V [23] has been demonstrated.…”

Section: Introductionmentioning

confidence: 99%

High-performance HZO/InAlN/GaN MISHEMTs for Ka-band application

Cui¹,

Moser²,

Chen³

et al. 2023

Semicond. Sci. Technol.

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This paper reports on the demonstration of microwave power performance at 30 GHz on InAlN/GaN metal-insulator-semiconductor high electron mobility transistor (MISHEMT) on silicon substrate by using the Hf0.5Zr0.5O2 (HZO) as a gate dielectric. Compared with Schottky gate HEMT (SG-HEMTs), the MISHEMT with a gate length (LG) of 50 nm presents a significantly enhanced performance with an ON/OFF current ratio (ION/IOFF) of 9.3 × 107, a subthreshold swing (SS) of 130 mV/dec, a low drain-induced barrier lowing (DIBL) of 45 mV/V, and a breakdown voltage of 35 V. RF characterizations reveal a current gain cutoff frequency (fT) of 155 GHz and a maximum oscillation frequency (fmax) of 250 GHz, resulting in high (fT×fmax)1/2 of 197 GHz and the record high Johnson’s figure-of-merit (JFOM = fT×BV) of 5.4 THz∙V among the reported GaN MISHEMTs on Si. The power performance at 30 GHz exhibits a maximum output power of 1.36 W/mm, a maximum power gain of 12.3 dB, and a peak power-added efficiency of 21%, demonstrating the great potential of HZO/InAlN/GaN MISHEMTs for the Ka-band application.

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Fabrication and Characterization of Gate-Last Self-Aligned AlN/GaN MISHEMTs With <italic>In Situ</italic> SiN<sub><italic>x</italic></sub> Gate Dielectric

Cited by 23 publications

References 32 publications

Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

AlN/GaN HEMTs with f_max Exceeding 300 GHz by Using Ge-Doped n⁺⁺GaN Ohmic Contacts

High-performance HZO/InAlN/GaN MISHEMTs for Ka-band application

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Fabrication and Characterization of Gate-Last Self-Aligned AlN/GaN MISHEMTs With <italic>In Situ</italic> SiN<sub><italic>x</italic></sub> Gate Dielectric

Cited by 23 publications

References 32 publications

Gate-first process compatible, high-quality in situ SiN x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

Gate-first process compatible, high-quality in situ SiN x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

AlN/GaN HEMTs with fmax Exceeding 300 GHz by Using Ge-Doped n++GaN Ohmic Contacts

High-performance HZO/InAlN/GaN MISHEMTs for Ka-band application

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Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

Gate-first process compatible, high-quality in situ SiN_x for surface passivation and gate dielectrics in AlGaN/GaN MISHEMTs

AlN/GaN HEMTs with f_max Exceeding 300 GHz by Using Ge-Doped n⁺⁺GaN Ohmic Contacts