Sarosij Adak

Scopus Publications

Performance Analysis of Gate Stack DG-MOSFET for Biosensor Applications
Saradiya Kishor Parija, Sanjit Kumar Swain, Sudhansu Mohan Biswal, Sarosij Adak, Pradipta Dutta
Silicon, 2022
In this paper the performance of gate stack metal oxide semiconductor field effect transistor (MOSFET) is investigated with respect to different bio molecules for application as biosensor device. In order to beat the limits of short channel effects (SCEs) the double gate stack MOSFET has been preferred as the proposed device. For biosensor application, dielectric modulation technique has been chosen and effect of different bio molecules like protein, biotin, streptavidin, APTES, etc. are studied to verify the sensitivity as a biosensor for this proposed device. The sensitivity parameter and analog/Rf parameter have been studied for different bio-molecules and a comparative result has been established. The sensitivity of bimolecules located in the cavity side by the oxide region is observed in the variation of threshold voltage and also different analog and RF parameters which can be used for future application in the area of medical science. Two oxide layer one is high k(HfO 2 ) and low k(SiO 2 ) has been used for stacking. For simulations, 2D Sentrausu TCAD simulator has been used.
Comparison Study of DG-MOSFET with and without Gate Stack Configuration for Biosensor Applications
Saradiya Kishor Parija, Sanjit Kumar Swain, Sarosij Adak, Sudhansu Mohan Biswal, Pradipta Dutta
Silicon, 2022
In this Paper, we have studied and compared the performance of two different configurations of simulation model advanced MOSFET devices which can be used for biosensor application. The bio-molecules like protein, biotin, streptavidin, APTES, etc., undergo label free electrical detection with the help of dielectrical modulation technique in order to overcome the limitations of short channel effect in a more efficient way. The bio-molecules trapped inside the cavity region change the electrical parameters of the MOSFET. Biosensors based on MOSFETs have certain issues, like short channel effects (SCEs) and problems related to scaling and power supply. Therefore the proposed device is better withstand to SCEs and can be consider as an alternative for biosensing applications. For channel material, silicon is used for both the configurations i.e. with stack and without stack model and we have also studied the performance of the device based on the analog as well as RF parameters by considering the protein as bio-molecule in the cavity. Two different oxide materials are used to design the device structure such as HfO2 (K = 25) and SiO2 (K = 3.9) and for simulation purpose the 2D Sentrausu TCAD simulator has been used. The sensing capability of this proposed dielectric modulated device can be applicable for IOT based applications. They can also be uses in health IOT systems for medical research applications and as bio chip sensor in wearable device so as to study the protein content of the human body.
Performance enhancement of normally off InAlN/AlN/GaN HEMT using aluminium gallium nitride back barrier
Nisarga Chand, Sarosij Adak, S.K. Swain, Sudhansu Mohan Biswal, A. Sarkar
Computers and Electrical Engineering, 2022
Comparative study on Analog RF Parameter of InAlN/AlN/GaN Normally off HEMTs with and without AlGaN back barrier
Nisarga Chand, Sanjit Kumar Swain, Sudhansu Mohan Biswal, Angsuman Sarkar, Sarosij Adak
Proceedings of 4th International Conference on 2021 Devices for Integrated Circuit Devic 2021, 2021
In this work, we have made a relative assessment of lattice-matched In0.17Al0.83N/AlN/GaN normally off HEMT device with AlGaN back-barrier (BB) and without back-barrier by using device simulator. The utility of AlGaN BB on the said E-HEMT relaxes the channel, which reduces the short channel effects. It also reduces the total gate capacitance and simultaneously improves the cut- off frequency. The numerical modelings are done by the 2Dimenssional TCAD by means of HD mobility and matched with the previously accepted experimental result. Different device parameters are analyzed and compared with BB and without BB with the help of the numerical modeling. AlGaN back-barrier has further benefits in device parameters with comparison to without back-barrier i.e. less total gate capacitance and higher cut-off frequency. These outcomes prove the utility of proposed BB in such E-Mode GaN HEMTs can be a substitute way out in support of high power along with high-frequency purposes.
Study of Linearity Performance of Graded Channel Gate Stacks Double Gate MOSFET with Respect to High-K Oxide Thickness
Sanjit Kumar Swain, Satish Kumar Das, Sarosij Adak
Silicon, 2020
In this paper a double gate MOSFET having non uniform channel doping with gate stack structure is explored to study the linearity analysis. The extractions of linearity parameters confirm the novelty of the device and also enable us to achieve better the analog/RF applications. This promising device has an advantage of showing higher cut-off frequency, reduced DIBL, better gate oxide reliability and limiting the effects of parasitic bipolar phenomenon. In this paper we have studied the detail analysis of important linearity parameters of this proposed device with respect to change in high K oxide thickness (t oxh ) to have clear ideas on different linearity parameters like VIP2, VIP3, IIP3 and IMD3 and their variations. The simulated results validate that the change in t oxh of this device plays a significant role on improving the linearity performance and there by careful optimization of this parameters can infer achieving better and reliable analog/linearity performances for SOC applications.
Performance comparison of inas based dg-mosfet with respect to sio2 and gate stack configuration
Sanjit K. Swain, Sudhansu M. Biswal, Satish K. Das, Sarosij Adak, Biswajit Baral
Nanoscience and Nanotechnology Asia, 2020
Objective:: In this proposed work, the Analog, RF and Linearity performances of a DGMOSFET have been analyzed by considering InAs as a channel material. Methods: For the very first time, gate stack techniques in this device have been incorporated and a comparative analysis is conducted with respect to SiO2 oxide layer. The variations in different patterns of oxide layer and their comparison have been thoroughly investigated to have a better understanding of various performance parameters. A thorough analysis of the key figure-of-merits such as trans-conductance factor, transconductance generation factor (TGF), gate capacitance, cutoff frequency (fT), maximum frequency of oscillation (fmax), GBW and various linearity parameters such as gm2, gm3,VIP2, VIP3, IIP3, has been studied with respect to SiO2 oxide material and gate stack technology. Result:: The simulation results revealed that the performances of the device are sensitive to both the oxide materials and it was also inferred that gate stack technology gave a better performance over SiO2 oxide layer. Conclusion:: These results have significant effects in analog, RF and linearity operations. In this work, computer aided design (TCAD) simulations by 2D ATLAS, Silvaco International have been used.
Impact of high-K dielectric materials on performance analysis of underlap in 0. 1 7 Al 0. 8 3 N/GaN DG-MOSHEMTs
Sarosij Adak, Sanjit Kumar Swain
Nano, 2019
This work systematically investigated the effect of high-[Formula: see text] oxide materials on the performance of InAlN/GaN heterostructure underlap double gate (DG) MOS-HEMTs by considering 2D Sentaurus TCAD simulation. During the course of simulation, hydrodynamic mobility model was implemented and the obtained results were used for validating the model with the previously published experimental results. Different device performance parameters are thoroughly studied for different high-[Formula: see text] oxide materials by performing extensive simulations. It is verified that short channel effects (SCEs), key analog and RF figures of merits parameters and [Formula: see text]th improved with an increase in the value of high-[Formula: see text] oxide material. Moreover, it is also revealed that there is a significant growth in the values of key analog and RF figures of merits with respect to high-[Formula: see text] values. This analysis suggested that use of a suitable value of high-[Formula: see text]-valued oxide material in InAlN/GaN heterostructure underlap DG MOS-HEMTs can be one of the alternatives for future high speed and microwave applications.
Effect of AlGaN Back Barrier on InAlN/AlN/GaN E-Mode HEMTs
Sarosij Adak, Nisarga Chand, Sanjit Kumar Swain, Angsuman Sarkar
Proceedings of 3rd International Conference on 2019 Devices for Integrated Circuit Devic 2019, 2019
This paper reports the effect of AlGaN back barrier on the performance of lattice matched In0.17Al0.83N/AlN/GaN Recess Gate E HEMT Device. The use of AlGaN back barrier on this device relaxes the GaN channel, which in turn limits the SCEs. Moreover reduced the leakage current through gate (Ig) and simultaneously improves carrier confinement and off state breakdown voltage. The numerical modeling are carried out with the help of 2D Sentaurus TCAD simulator using Hydrodynamic model, which is standardized with respect to already published fabricated results. Different performance parameters are studied using the simulations and a wide comparison was done with and without considering AlGaN back barrier (BB). Addition of AlGaN BB has added benefits in performance parameters w.r.t without BB i.e. threshold voltage raised to 0.93 volt with respect to 0.75 volt, drop in DIBL from 100mv/V to 36mv/V and substantial reduction in gate leakage current. These results reveal that use of AlGaN BB in such devices can be an alternative solution for high power and high frequency switching applications.
Effect of High-K Spacer on the Performance of Non-Uniformly doped DG-MOSFET
Sanjit K Swain, Satish K Das, Sudhansu M Biswal, Sarosij Adak, Umakanta Nanda, Asmit Amlan Sahoo, Debasish Navak, Biswajit Baral, Dhananjaya Tripathy
Proceedings of 3rd International Conference on 2019 Devices for Integrated Circuit Devic 2019, 2019
This paper presents the performance of non-uniformed doped double gate (DG) MOSFET with different spacer variations with an aim to analysis the effects of short channel and various performance metrics. In this work we have taken silicon as the channel material with non-uniform doping for studying the analog and RF performances. Spacer's materials having different permittivities were used to understand their effect on the device performance. Based on the simulations, we can conclude that analog and Radio Frequency performance of the device shows an significant improvement with addition of spacer layer. We have used computer aided design (TCAD) simulations by SILVACO International.
Comparison of Linearity Performance of InAs Based DG-MOSFETs with Gate Stack, SiO2 and HfO2
Sanjit Kumar Swain, Sarosij Adak, Sudhansu Mohan Biswal, Biswajit Baral, Saradiya Parija
Proceedings of International Conference on 2018 IEEE Electron Device Kolkata Conference Edkcon 2018, 2018
This work demonstrates a comparative analysis of various types of Double-Gate MOSFET, aims at enhancing the analog, linearity performances and these devices are more protective to short-channel effects (SECs). We have studied the linearity performance of DG-MOSFET by considering channel material as InAs and simultaneously incorporating gate stack technique. Variations oxide materials by considering channel as InAs and finally their comparison were thoroughly studied to have a better understanding of different linearity parameters. Various Figure-of-merits(FOMs) such as trans-conductance factor, VIP2, VIP3, IIP3 are thoroughly analysed for various high-K oxide materials along with gate stack technology. From the simulation results it is found that the performances of the device changes with respect to change in different oxide materials and it is also inferred that gate stack technology has also significant effect in the linearity performances. In this work, we have used the (TCAD) simulations by 2D ATLAS, Silvaco International to carry out the simulations.
Study of Linearity Performances of Junction-less Triple-Material Cylindrical Surrounding Gate MOSFET
Pradipta Kumar Jena, Sanjit Kumar Swain, Omprakash Acharya, Sarosij Adak
2018 International Conference on Applied Electromagnetics Signal Processing and Communication Aespc 2018, 2018
Sub threshold analog &RF parameter extraction of graded channel gate stack DG-MOSFETs with high K material using NQS approach
Sanjit Kumar Swain, Sarosij Adak, Saradiya Parija, Chandan Kumar Sarkar
Proceedings of 2nd International Conference on 2017 Devices for Integrated Circuit Devic 2017, 2017
Effect of doping in p-GaN gate on DC performances of AlGaN/GaN normally-off scaled HFETs
Sarosij Adak, Sanjit Kumar Swain, Hafizur Rahaman, Chandan Kumar Sarkar
Proceedings of 2nd International Conference on 2017 Devices for Integrated Circuit Devic 2017, 2017
Nanotechnology applications in electron devices
S. Roy, C. K. Ghosh, C. Sarkar
Nanotechnology Synthesis to Applications, 2017
Effect of barrier thickness on linearity of underlap AlInN/GaN DG-MOSHEMTs
Sarosij Adak, Sanjit Kumar Swain, Hemant Pardeshi, Hafizur Rahaman, Chandan Kumar Sarkar
Nano, 2017
Impact of gate engineering in enhancement mode n++GaN/InAlN/AlN/GaN HEMTs
Sarosij Adak, Sanjit Kumar Swain, Hafizur Rahaman, Chandan Kumar Sarkar
Superlattices and Microstructures, 2016
Performance analysis of gate material engineering in enhancement mode n++GaN/InAlN/AlN/GaN HEMTs
Sarosij Adak, Sanjit Kumar Swain, Godwin Raj, Hafizur Rahaman, Chandan Kumar Sarkar
Proceedings of the 3rd International Conference on Devices Circuits and Systems Icdcs 2016, 2016
Impact of high K layer material on Analog/RF performance of forward and reversed Graded channel Gate Stack DG-MOSFETs
Sanjit Kumar Swain, Sarosij Adak, Arka Dutta, Godwin Raj, Chandan Kumar Sarkar
Proceedings of the 3rd International Conference on Devices Circuits and Systems Icdcs 2016, 2016
Impact of InGaN back barrier layer on performance of AIInN/AlN/GaN MOS-HEMTs
Sanjit Kumar Swain, Sarosij Adak, Sudhansu Kumar Pati, Chandan Kumar Sarkar
Superlattices and Microstructures, 2016
Influence of channel length and High-K oxide thickness on Subthreshold DC performance of graded channel and gate stack DG-MOSFETs
Sarosij Adak, Sanjit Kumar Swain, Arka Dutta, Hafizur Rahaman, Chandan Kumar Sarkar
Nano, 2016
Influence of channel length and high-K oxide thickness on subthreshold analog/RF performance of graded channel and gate stack DG-MOSFETs
Sanjit Kumar Swain, Arka Dutta, Sarosij Adak, Sudhansu Kumar Pati, Chandan Kumar Sarkar
Microelectronics Reliability, 2016
Effect of channel thickness and doping concentration on sub-threshold performance of Graded channel and Gate stack DG MOSFETs
Sanjit Kumar Swain, Sarosij Adak, Bikash Sharma, Sudhansu Kumar Pati, Chandan Kumar Sarkar
Journal of Low Power Electronics, 2015
Effect of AlN spacer layer thickness on device performance of AIInN/AlN/GaN MOSHEMT
Sarosij Adak, Sanjit Kumar Swain, Hemant Pardeshi, Hafizur Rahman, Chandan Kumar Sarkar
Proceedings 1st International Conference on Computing Communication Control and Automation Iccubea 2015, 2015
Comparative assesment of ground plane and strained based FDSOI MOSFET
Informacije MIDEM, 2015
Analysis of flicker and thermal noise in p-channel Underlap DG FinFET
Sanjit Kumar Swain, Sarosij Adak, Sudhansu Kumar Pati, Hemant Pardeshi, Chandan Kumar Sarkar
Microelectronics Reliability, 2014
High performance AlInN/AlN/GaN p-GaN back barrier Gate-Recessed Enhancement-Mode HEMT
Sarosij Adak, Arghyadeep Sarkar, Sanjit Swain, Hemant Pardeshi, Sudhansu Kumar Pati, Chandan Kumar Sarkar
Superlattices and Microstructures, 2014
Study of HfAlO/AlGaN/GaN MOS-HEMT with source field plate structure for improved breakdown voltage
Sarosij Adak, Sanjit Kumar Swain, Avtar Singh, Hemant Pardeshi, Sudhansu Kumar Pati, Chandan Kumar Sarkar
Physica E Low Dimensional Systems and Nanostructures, 2014

RECENT SCHOLAR PUBLICATIONS

Performance analysis of gate stack DG-MOSFET for biosensor applications
SK Parija, SK Swain, SM Biswal, S Adak, P Dutta
Silicon 14 (14), 8371-8379 , 2022
2022
Citations: 18
Comparison study of DG-MOSFET with and without gate stack configuration for biosensor applications
SK Parija, SK Swain, S Adak, SM Biswal, P Dutta
Silicon 14 (7), 3629-3640 , 2022
2022
Citations: 13
Performance enhancement of normally off InAlN/AlN/GaN HEMT using aluminium gallium nitride back barrier
N Chand, S Adak, SK Swain, SM Biswal, A Sarkar
Computers & Electrical Engineering 98, 107695 , 2022
2022
Citations: 11
Comparative study on analog & RF parameter of InALN/AlN/GaN normally off HEMTs with and without AlGAN back barrier
N Chand, SK Swain, SM Biswal, A Sarkar, S Adak
2021 Devices for Integrated Circuit (DevIC), 616-620 , 2021
2021
Citations: 8
Performance Comparison of InAs Based DG-MOSFET with Respect to SiO2 and Gate Stack Configuration
SK Swain, SM Biswal, SK Das, S Adak, B Baral
Nanoscience & Nanotechnology-Asia 10 (4), 419-424 , 2020
2020
Citations: 1
Study of linearity performance of graded channel gate stacks double gate MOSFET with respect to high-K oxide thickness
SK Swain, SK Das, S Adak
Silicon 12 (7), 1567-1574 , 2020
2020
Citations: 17
Effect of High-K Spacer on the Performance of Non-Uniformly doped DG-MOSFET
SK Swain, SK Das, SM Biswal, S Adak, AAS Umakanta Nanda, D Navak, ...
Devices for Integrated Circuit (DevIC) , 2019
2019
Citations: 14
Effect of AlGaN Back Barrier on InAlN/AlN/GaN E-Mode HEMTs
S Adak, N Chand, SK Swain, A Sarkar
Devices for Integrated Circuit (DevIC) , 2019
2019
Citations: 10
Impact of high-K dielectric materials on performance analysis of underlap In0.17Al0.83N/GaN DG-MOSHEMTs
S Adak
Nano , 2019
2019
Citations: 5
Comparison of Linearity Performance of InAs Based DG-MOSFETs with Gate Stack, SiO2 and HfO2
SP Sanjit Kumar Swain, Sarosij Adak, Sudhansu Mohan Biswal, Biswajit Baral
2018 IEEE Electron Device Kolkata Conference (EDKCON) , 2018
2018
Citations: 4
Study of Linearity Performances of Junction-less Triple-Material Cylindrical Surrounding Gate MOSFET
PK Jena, SK Swain, O Acharya, S Adak
2018 International Conference on Applied Electromagnetics, Signal Processing … , 2018
2018
Citations: 2
Analysis of GaN based Heterostructure Nano Devices
S Adak
IIEST Shibpur, , 2018
2018
Performance study of GCGS DG-MOSFETs for asymmetric doping and high K oxide material using NQS method
SK Swain, S Adak, S Parija, CK Sarkar
Journal of Active and Passive Electronic Devices 13 (2-3), 149-163 , 2018
2018
Citations: 2
Nanotechnology Applications in Electron Devices
CKS Sarosij Adak, Arghyadeep Sarkar, Sanjit Kumar Swain, Sunipa Roy, Chandan ...
Nanotechnology , 2017
2017
Citations: 1
Nanotechnology: synthesis to applications
S Roy, CK Ghosh, CK Sarkar
CRC Press , 2017
2017
Citations: 48
Performance study of GCGS DG-MOSFETs for Asymmetric Doping and High K Oxide Material Using NQS Method
CKS Sanjit Kumar Swain, Sarosij Adak, Saradiya Parija
J. of Active and Passive Electronic Devices , 2017
2017
Effect of doping in p-GaN gate on DC performances of AlGaN/GaN normally-off scaled HFETs
S Adak, SK Swain, H Rahaman, CK Sarkar
2017 Devices for Integrated Circuit (DevIC), 372-375 , 2017
2017
Citations: 6
Sub threshold analog &RF parameter extraction of graded channel gate stack DG-MOSFETs with high K material using NQS approach
SK Swain, S Adak, S Parija, CK Sarkar
2017 Devices for Integrated Circuit (DevIC), 216-220 , 2017
2017
Effect of barrier thickness on linearity of underlap AlInN/GaN DG-MOSHEMTs
S Adak, SK Swain, H Pardeshi, H Rahaman, CK Sarkar
Nano 12 (01), 1750009 , 2017
2017
Citations: 2
Impact of gate engineering in enhancement mode n++ GaN/InAlN/AlN/GaN HEMTs
S Adak, SK Swain, H Rahaman, CK Sarkar
Superlattices and Microstructures 100, 306-314 , 2016
2016
Citations: 16

MOST CITED SCHOLAR PUBLICATIONS

High performance AlInN/AlN/GaN p-GaN back barrier gate-recessed enhancement-mode HEMT
S Adak, A Sarkar, S Swain, H Pardeshi, SK Pati, CK Sarkar
Superlattices and Microstructures 75, 347-357 , 2014
2014
Citations: 51
Nanotechnology: synthesis to applications
S Roy, CK Ghosh, CK Sarkar
CRC Press , 2017
2017
Citations: 48
Influence of channel length and high-K oxide thickness on subthreshold analog/RF performance of graded channel and gate stack DG-MOSFETs
SK Swain, A Dutta, S Adak, SK Pati, CK Sarkar
Microelectronics Reliability 61, 24-29 , 2016
2016
Citations: 47
Impact of InGaN back barrier layer on performance of AIInN/AlN/GaN MOS-HEMTs
SK Swain, S Adak, SK Pati, CK Sarkar
Superlattices and Microstructures 97, 258-267 , 2016
2016
Citations: 33
Study of HfAlO/AlGaN/GaN MOS-HEMT with source field plate structure for improved breakdown voltage
S Adak, SK Swain, A Singh, H Pardeshi, SK Pati, CK Sarkar
Physica E: Low-dimensional Systems and Nanostructures 64, 152-157 , 2014
2014
Citations: 25
Performance analysis of gate stack DG-MOSFET for biosensor applications
SK Parija, SK Swain, SM Biswal, S Adak, P Dutta
Silicon 14 (14), 8371-8379 , 2022
2022
Citations: 18
Effect of channel thickness and doping concentration on sub-threshold performance of Graded Channel and gate stack DG MOSFETs
SK Swain, S Adak, B Sharma, SK Pati, CK Sarkar
Journal of Low Power Electronics 11 (3), 366-372 , 2015
2015
Citations: 18
Study of linearity performance of graded channel gate stacks double gate MOSFET with respect to high-K oxide thickness
SK Swain, SK Das, S Adak
Silicon 12 (7), 1567-1574 , 2020
2020
Citations: 17
Impact of gate engineering in enhancement mode n++ GaN/InAlN/AlN/GaN HEMTs
S Adak, SK Swain, H Rahaman, CK Sarkar
Superlattices and Microstructures 100, 306-314 , 2016
2016
Citations: 16
Influence of channel length and high-K oxide thickness on subthreshold DC performance of graded channel and gate stack DG-MOSFETs
S Adak, SK Swain, A Dutta, H Rahaman, CK Sarkar
Nano 11 (09), 1650101 , 2016
2016
Citations: 16
Effect of High-K Spacer on the Performance of Non-Uniformly doped DG-MOSFET
SK Swain, SK Das, SM Biswal, S Adak, AAS Umakanta Nanda, D Navak, ...
Devices for Integrated Circuit (DevIC) , 2019
2019
Citations: 14
Comparison study of DG-MOSFET with and without gate stack configuration for biosensor applications
SK Parija, SK Swain, S Adak, SM Biswal, P Dutta
Silicon 14 (7), 3629-3640 , 2022
2022
Citations: 13
Comparative assesment of ground plane and strained based FDSOI MOSFET
A Singh, S Adak, H Pardeshi, A Sarkar, CK Sarkar
Informacije MIDEM 45 (1), 73-79 , 2015
2015
Citations: 12
Performance enhancement of normally off InAlN/AlN/GaN HEMT using aluminium gallium nitride back barrier
N Chand, S Adak, SK Swain, SM Biswal, A Sarkar
Computers & Electrical Engineering 98, 107695 , 2022
2022
Citations: 11
Effect of AlGaN Back Barrier on InAlN/AlN/GaN E-Mode HEMTs
S Adak, N Chand, SK Swain, A Sarkar
Devices for Integrated Circuit (DevIC) , 2019
2019
Citations: 10
Comparative study on analog & RF parameter of InALN/AlN/GaN normally off HEMTs with and without AlGAN back barrier
N Chand, SK Swain, SM Biswal, A Sarkar, S Adak
2021 Devices for Integrated Circuit (DevIC), 616-620 , 2021
2021
Citations: 8
Effect of AlN spacer layer thickness on device performance of AIInN/AlN/GaN MOSHEMT
S Adak, SK Swain, H Pardeshi, H Rahman, CK Sarkar
2015 International Conference on Computing Communication Control and … , 2015
2015
Citations: 7
Effect of doping in p-GaN gate on DC performances of AlGaN/GaN normally-off scaled HFETs
S Adak, SK Swain, H Rahaman, CK Sarkar
2017 Devices for Integrated Circuit (DevIC), 372-375 , 2017
2017
Citations: 6
OFDMA-PON: High Speed PON Access System
S Biswas, S Adak
International Journal of Soft Computing 1 , 2010
2010
Citations: 6
Impact of high-K dielectric materials on performance analysis of underlap In0.17Al0.83N/GaN DG-MOSHEMTs
S Adak
Nano , 2019
2019
Citations: 5