Dr. Md. Danish Nadeem is a highly accomplished researcher and educator in the field of electronics engineering, specializing in Microwave Photonics. With a Ph.D. from the Indian Institute of Technology (Indian School of Mines), Dhanbad, Dr. Nadeem has demonstrated expertise in optical sensors, optoelectronic oscillators, and photonics-assisted antenna systems. His research interests lie in advancing the applications of microwave photonics in various domains, including communication systems, healthcare monitoring, and radar technology. Dr. Nadeem’s career journey encompasses significant contributions to academia, industry collaborations, and recognition through awards and honors.
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Google Scholar Profile
Dr. Nadeem has a notable publication record, with contributions to reputable journals such as IEEE Sensors Journal and Optical and Quantum Electronics. His research papers have received attention for their innovative approaches and practical applications in the field of Microwave Photonics. Additionally, Dr. Nadeem’s participation in international conferences and workshops highlights his engagement with the global scientific community.
Dr. Nadeem’s citation metrics indicate a moderate level of scholarly impact. With an h-index of 5 and an i10-index of 2, he has garnered a total of 111 citations. While these numbers may not be exceptionally high, they reflect the recognition of his research contributions within the academic community. As Dr. Nadeem continues to publish and disseminate his work, these metrics are expected to evolve, further solidifying his standing in the field of Microwave Photonics.
Education
Dr. Nadeem holds a Doctor of Philosophy degree in Electronics and Communication Engineering from the Indian Institute of Technology (Indian School of Mines), Dhanbad. Prior to his Ph.D., he completed his Master of Technology in Electronics Instrumentation & Control Engineering from Rajasthan Technical University and Bachelor of Technology in Electronics and Instrumentation Engineering from U.P.T.U, Lucknow.
Research Focus
Dr. Nadeem’s research focuses on Microwave Photonics, with particular interests in optical sensors, optoelectronic oscillators, and photonics-assisted antenna systems. His work aims to advance the applications of microwave photonics in areas such as communication networks, radar technology, and healthcare monitoring. Dr. Nadeem’s projects involve designing innovative solutions to complex engineering challenges, contributing to the advancement of knowledge and technology in his field.
Professional Journey
Throughout his career, Dr. Nadeem has held various teaching and research positions at esteemed institutions such as Indian Institute of Technology (ISM) Dhanbad, Jamia Millia Islamia, and Gautam Buddha University. He has also been involved in industrial collaborations and has received funding for his research projects from organizations such as DRDO and ISRO. Dr. Nadeem’s professional journey reflects a dedication to academic excellence, research innovation, and industry engagement.
Honors & Awards
Dr. Nadeem has received several honors and awards in recognition of his scholarly contributions and research achievements. Notable accolades include the Best Paper Award at the International Conference on VLSI and Microwave and Wireless Technology, as well as the DRDO-SRF Fellowship. These honors highlight Dr. Nadeem’s standing within the academic community and his significant contributions to the field of electronics engineering.
Publications Noted & Contributions
Dr. Nadeem’s publications cover a wide range of topics in Microwave Photonics, including optical sensors, optoelectronic oscillators, and antenna systems. His research papers have been published in reputable journals and presented at international conferences, contributing to the advancement of knowledge in his field. Dr. Nadeem’s work has been recognized for its innovative approaches and practical applications in various domains, including communication systems, radar technology, and healthcare monitoring.
Advancing Microwave Waveform Generation: Photonic Dual Linear Chirp Modulation with Configurable Bandwidth
C. Kumar, MD Nadeem, SK Raghuwanshi, S. Kumar
Published in Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and …, 2024
This paper explores the advancement of microwave waveform generation through photonic dual linear chirp modulation with configurable bandwidth. The study presents innovative techniques to enhance microwave signal generation for various applications in telecommunications and signal processing.
Performance Study of Optical Filters Based on Various Optical Components and Their Tuning Mechanisms
R. Kumar, A. Ranjan, A. Kumar, AR Gupta, MD Nadeem, SK Raghuwanshi, …
Published in Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and …, 2024
This research article investigates the performance of optical filters utilizing different optical components and tuning mechanisms. The study aims to assess the effectiveness and efficiency of various optical filtering techniques for applications in optical communication systems.
Recent Advancement in Microwave Photonics Sensing Technologies-A Review
C. Kumar, MD Nadeem, SK Raghuwanshi, S. Kumar
Published in IEEE Sensors Journal, 2024
This review article provides an overview of recent advancements in microwave photonics sensing technologies. The paper highlights the latest developments and trends in the field, offering insights into the current state-of-the-art and future directions of microwave photonics sensing.
Generation of Arbitrary Microwave Waveforms Based on a Dual-Parallel Mach–Zehnder Modulator Driven by a Single Sinusoidal RF Signal
SK Raghuwanshi, MD Nadeem, R Kumar
Published in Optical and Quantum Electronics, 2024, 56 (2), 263
This research paper presents a novel approach for generating arbitrary microwave waveforms using a dual-parallel Mach–Zehnder modulator driven by a single sinusoidal RF signal. The study demonstrates the feasibility and effectiveness of the proposed technique for versatile microwave signal generation applications.
Delay Analysis of Ring Resonator-Based Beam-Forming Network in Z-Domain
MD Nadeem, SK Raghuwanshi, R Kumar
Published in Opto-Electronics Review, 2024, e150184-e150184
This paper conducts a delay analysis of a ring resonator-based beam-forming network in the Z-domain. The study investigates the delay characteristics and performance of the proposed network architecture, offering valuable insights for the design and optimization of beam-forming systems in optical communication networks.
Research Timeline
Dr. Nadeem’s research timeline spans from his doctoral studies to his current projects as a Senior Research Fellow at Indian Institute of Technology (ISM) Dhanbad. Over the years, he has been involved in numerous research projects funded by organizations such as DST(SERB), DRDO, and ISRO. These projects have focused on developing innovative solutions in Microwave Photonics, addressing key challenges in communication networks, radar technology, and healthcare monitoring.
Collaborations and Projects
Dr. Nadeem has been actively engaged in collaborative research projects with academic institutions, government agencies, and industry partners. His collaborations include projects funded by DST(SERB), DRDO, and ISRO, focusing on areas such as optical sensor development, optoelectronic oscillator design, and antenna system optimization. These collaborations have facilitated the exchange of knowledge and expertise, leading to significant advancements in Microwave Photonics technology.
