- Gowrish B
- Darshak Bhatt
- Tharun Kumar Reddy Bollu
- Anand Bulusu
- Ashish Kumar Chowdhary
- Bishnu Prasad Das
- Avirup Dasgupta
- Sudeb Dasgupta
- Arnab Datta
- Utpal Dey
- Devesh Dwivedi
- Debashis Ghosh
- Anshul Jaiswal
- MV Kartikeyan
- Priyansha Kaurav
- Brajesh Kumar Kaushik
- Saurabh Khanna
- Brijesh Kumar
- Dheeraj Kumar
- Saravana Kumar M
- Sanjeev Manhas
- Sparsh Mittal
- Akhilesh Mohan
- Rajib Kumar Panigrahi
- Vinod Pankajakshan
- Nagendra P. Pathak
- Amalendu Patnaik
- Vishvendra Singh Poonia
- Pyari Mohan Pradhan
- Tanmoy Pramanik
- Karun Rawat
- Meenakshi Rawat
- Sourajeet Roy
- Abhay Kumar Sah
- Biplab Sarkar
- Ekant Sharma
- Dharmendra Singh
- Sandeep Kumar Singh
- Anshul Tyagi
Welcome to my faculty page, which is dedicated to exploring the fascinating realm of 3D printing in the context of mm-wave and terahertz structures. With a profound passion for innovation and technological advancements, I specialize in developing product-based technologies tailored specifically for terahertz applications in the biomedical field.
Through meticulous research and experimentation, I strive to unlock the immense potential of terahertz waves in revolutionizing biomedical practices. By leveraging the power of 3D printing, I aim to create cutting-edge devices and structures that enable groundbreaking advancements in diagnostics, imaging, and treatment. From terahertz sensors and scanners to intricate biomedical devices, my work focuses on harnessing the unique properties of terahertz waves to improve the accuracy, efficiency, and accessibility of healthcare technologies. Furthermore, I am also involved in developing microwave millimeter wave components and circuits for security applications.
Join me on this exciting journey of pushing the boundaries of 3D printing, terahertz structures, and microwave millimeter wave technologies as we delve into biomedical and security applications and advancements. Together, we can unlock new possibilities and shape a future where innovative technologies positively impact healthcare and other industries.
|2017||2018||RFiC Design Engineer||Qualcomm|
|2022||2023||Research Scientist||IHCT, Bergische Universitat Wuppertal|
|AWSAR Award||Department of Science and Technology India||2021|
|Best Paper Poster Award||IEEE MTT-S International Microwave and RF Conference (IMaRC)||2017|
|Innovation Award||Indian Institute of Technology Delhi||2016|
|Travel Support for International Cooperation Program (JENESYS 2014)||Japan International Cooperation Center (JICE)||2014|
|Prime Minister Research Fellowship||Ministry of Education, Govt. of India (MoE)||2018|
|PhD||Terahertz Bioelectronics||Indian Institute of Technology Delhi||2018-2022|
|M.Tech||Radio Frequency Design and Technology||Indian Institute of Technology Delhi||2015-2017|
|B.Tech||Electronics and Communication Engineering||Indian Institute of Information Technology Design and Manufacturing Jabalpur||2011-2015|
|2022||2023||Group Leader in Terahertz Remote Sensing and Imaging||IHCT, Bergische Universitat Wuppertal||NA|
|Fundamental of Electronics||ECE101||Electrical||Autumn|
|Terahertz Design Lab||ECN509||M.Tech THz Communication and Sensing||Autumn|
• "A system and a method for material characterization”, Patent application no.: 202011008994
• "Apparatus and Method for Non-Invasive Measurement of Blood Glucose Concentration ”, Patent application no.:202011050895.
• " Sub-Terahertz apparatus and method for subsurface malignant tissue imaging ”, Patent application no.: 202111028062
•“Cellular Profiling”, German Patent filed.
•"RoundWormRepRate”, German Patent filed.
• S. Koul and P. Kaurav, " Sub-Terahertz Sensing Technology for Biomedical Applications," Sub-Terahertz Sensing Technology for Biomedical Applications. Springer, Singapore, 2022, ISBN: 978-981-19-3140-6.
•P. Kaurav, S. Koul and A. Basu, "Electromagnetic Characterization of Breast Tissue Phantoms in D Band Regime," in IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, doi: 10.1109/JERM.2021.3078645.
•P. Kaurav, S. Koul and A. Basu, “Non-Invasive Glucose Measurement Using Sub-Terahertz Sensor, Time Domain Processing and Neural Network," in IEEE Sensors
•P. Kaurav, S. Koul and A. Basu, “Sub-Terahertz waveguide iris probe for tumor margin assessment," in IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, doi: 10.1109/JERM.2021.3078645.
•J. C. Balzer, C. J. Saraceno, M. Koch, P. Kaurav, U. R. Pfeiffer, W. Withayachumnankul, T. Kürner, A. Stöhr, M. El-Absi, T. Kaiser, “THz Systems Exploiting Photonics and Communications Technologies," IEEE Journal of Microwaves, 2022.
• P. Kaurav and S. Koul and A. Basu, “Determination of Near Field Path Loss in Millimeter Wave Spectrum”, in IEEE MTT-S International Microwave and RF Conference (IMARC), 2019.
• P. Kaurav and S. Koul and A. Basu, “On D band near field channel characterization”, in Union Radio-Scientifique Internationale-GASS (URSI-GASS), Rome, 2020.
•P. Kaurav and S. Koul and A. Basu, “Design of Sub-Terahertz Waveguide Iris Probe for Breast Cancer Tumor Margin Assessment”, in IEEE MTT-S International Microwave and RF.Conference (IMARC), 2021.
•P. Kaurav and S. Koul and A. Basu, “Delay Spread Estimation in Presence of Obstructing Medium for 6G Channels”, in European Microwave Conference (EuMW), London, 2022.