Faculty

COPYRIGHTS (2022-2025)

Faculties/Inventors Name From ECE Department	Registration Number	Title Of The Work	Description	Date	Organisation
Dr. Swati Sharma	SW-19790/2024	GALLIUM NITRIDE BASED SCHOTTKY BARRIER MOSFET BIOSENSOR	SILVACO ATLAS SCRIPT	04/12/2024	Copyright Office, Government of india
Dr. Swati Sharma	SW-19796/2024	GALLIUM NITRIDE BASED HIGH-K SCHOTTKY BARRIER MOSFET BIOSENSOR	SILVACO ATLAS SCRIPT	05/12/2024	Copyright Office, Government of india
Dr. Preeti Goyal	SW-19796/2024	GALLIUM NITRIDE BASED HIGH-K SCHOTTKY BARRIER MOSFET BIOSENSOR	SILVACO ATLAS SCRIPT	05/12/2024	Copyright Office, Government of india
Prof. R. S. Gupta	SW-19790/2024	GALLIUM NITRIDE BASED SCHOTTKY BARRIER MOSFET BIOSENSOR	SILVACO ATLAS SCRIPT	04/12/2024	Copyright Office, Government of india
Prof R. S. Gupta	SW-19796/2024	GALLIUM NITRIDE BASED HIGH-K SCHOTTKY BARRIER MOSFET BIOSENSOR	SILVACO ATLAS SCRIPT	05/12/2024	Copyright Office, Government of india
Ms. Shalu Garg	2941/2023-CO/SW	Temperature sensitive analysis of Junctionless Nanowire Ferroelectric Field Effect Transistor (JNFe-FET) for enhanced analog performance.	Computer Software Work	02/02/2023	Copyright Office, Government of india
Ms. Shalu Garg	13014/2023-CO/SW	Physics based analytical modeling and simulation of Cylindrical Junctionless Nanowire Ferroelectric Field Effect Transistor (CJNFe-FET) for enhanced analog performance.	Computer Software Work	18/05/2023	Copyright Office, Government of india
Prof. R. S. Gupta	2941/2023-CO/SW	Temperature sensitive analysis of Junctionless Nanowire Ferroelectric Field Effect Transistor (JNFe-FET) for enhanced analog performance.	Computer Software Work	02/02/2023	Copyright Office, Government of india
Prof. R. S. Gupta	13014/2023-CO/SW	Physics based analytical modeling and simulation of Cylindrical Junctionless Nanowire Ferroelectric Field Effect Transistor (CJNFe-FET) for enhanced analog performance.	Computer Software Work	18/05/2023	Copyright Office, Government of india
Dr. Anubha Goel	2941/2023-CO/SW	Temperature sensitive analysis of Junctionless Nanowire Ferroelectric Field Effect Transistor (JNFe-FET) for enhanced analog performance.	Computer Software Work	02/02/2023	Copyright Office, Government of india
Dr. Anubha Goel	13014/2023-CO/SW	Physics based analytical modeling and simulation of Cylindrical Junctionless Nanowire Ferroelectric Field Effect Transistor (CJNFe-FET) for enhanced analog performance.	Computer Software Work	18/05/2023	Copyright Office, Government of india
Dr. Anubha Goel	SW-16636/2023	Sic based analytical model for gate-stack dual metal nanowire fet for enhanced analog performance	Computer Software Work	16/06/2023	Copyright Office, Government of india
Dr. Anubha Goel	SW-17592/2023	Temperature sensitive analytical analysis of gate stack dual-metal nanowire field effect transistor (4h-sic)	Computer Software Work	15/11/2023	Copyright Office, Government of india
Ms. Neeraj	SW-16636/2023	Sic based analytical model for gate-stack dual metal nanowire fet for enhanced analog performance	Computer Software Work	16/06/2023	Copyright Office, Government of india
Ms. Neeraj	SW-17592/2023	Temperature sensitive analytical analysis of gate stack dual-metal nanowire field effect transistor (4h-sic)	Computer Software Work	15/11/2023	Copyright Office, Government of india
Dr. Anubha Goel	SW-17357/2023.	Quantum Effect Dependent Modeling Of Short Channel Junctionless Double Gate Stack (SC-JLDG) MOSFET For High Frequency Analog Applications	Computer Software Work	03/10/2023	Copyright Office, Government of india
Prof. R. S. Gupta	SW-16636/2023	Sic based analytical model for gate-stack dual metal nanowire fet for enhanced analog performance	Computer Software Work	16/06/2023	Copyright Office, Government of india
Prof. R. S. Gupta	SW-17592/2023	Temperature sensitive analytical analysis of gate stack dual-metal nanowire field effect transistor (4h-sic)	Computer Software Work	15/11/2023	Copyright Office, Government of india