Nagarajan Sivarajan scite author profile

Nagarajan Sivarajan

3Publications

0Citation Statements Received

30Citation Statements Given

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Saveetha University

Publications

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Relaxation rate and polarization charge density model for AlN/Al$_{x}$Ga$_{1 - x}$N/AlN heterostructures

Sivarajan¹,

Korah²,

Ganamani³

2017

Turk J Elec Eng & Comp Sci

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This work describes the strain-relaxation-dependent carrier concentration ( ns) profile model using spontaneous and piezoelectric polarization for AlN/Al x Ga 1−x N/AlN HEMTs in all mole fraction ( x) interpolations. As x varies, the Aluminum Gallium Nitride (AlGaN) channel shows strain relaxation with the Aluminum Nitride (AlN) barrier. The degree of relaxation is modeled from AlN to GaN regions in the channel. It shows that the AlN barrier and buffer relaxation and strain recovery occurs due to the gradual crystal quality degradation from barrier/buffer to the channel interface. These combination devices show less drain current degradation with temperature variation from 300 K to 573 K. This model shows a good agreement with experimental data with a carrier density of ns = 2.8 × 10 13 /cm 2 .

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Impact of Gatelength on the Performance of InGaAs/InAs/InGaAs Composite Channel Dual Material Double Gate-High Electron Mobility Transistor Devices for High-Frequency Applications

Sivarajan¹,

Korah²,

Kalavathy³

2017

Journal of Nanoelectronics and Optoelectronics

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Enhanced Power Allocation Scheme of rain Wireless Access Network based on PD-OMA in 5G

Sivarajan

Yuvaraj²,

Poonguzhali

et al. 2022

Preprint

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The development of an advanced cellular terminal and wideband application in a mobile network is becoming robust due to its vast capacity, low latency, and high scalability. Edge computing is exceptionally suitable for reducing time delays and improving the nature of network service quality. By Combining rain computing with the wireless access network (WAN) and exploiting edge computing, rain WAN (R-WAN) is expected to be a promising model for advanced wireless networks such as 5G and 6G wireless network architectures. Power domain orthogonal multiple access (PD-OMA) has the possibility of recognize various subscribers whose data are multiplexed by various power factors into the corresponding orthogonal resource and the progressive interference cancellation (PIC) is being used for the detection data at the rain access wireless hub locations. This paper emphasis on the static power allocation of wireless sub channel in PD-OMA and the extension to R-WAN. A six-subscriber multiplexing model is developed on the transmitting side of a PD-OMA multiuser framework model, and a comparable PIC receptor is designed. In addition, a group of static power change elements is characterized by subscriber channel conditions, and an improved fractional send power assignment (E-FSPA) calculation is proposed for PD-OMA and computed to the various subscriber models. The experimental results indicate that EFSPA performs in a way better than the past SPA and FSPA. More specifically, it is possible to find more than one wireless channel power distribution technique performing better than MIMO under similar R-WAN conditions via E-FSPA.

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