I am Prof. Mousumi Basu, working in this institute since 2000. Before joining here I have completed my Ph.D. in the area of fiber optics from Department of Physics, IIT Kharagpur. During my Ph.D., I have worked under the supervision of Dr. Ramanand Tewari and Prof. H.N. acharya. Before that, I have completed my M.Sc in Physics from Jadavpur University in the year 1992 and M.Tech in solid-state technology from IIT Kharagpur in the year 1995. I have been strongly associated with teaching and research in IIEST shibpur ( Formerly known as BESUS) since 2000. My major area of research is fiber and waveguide optics in linear and nonlinear domain. Several Ph.D. students of my research group are working in this field as well as in some allied fields, in collaboration with other universities and institutes. Some of my Ph.D. students have also been awarded Ph.D. degree. A good number of sponsored research projects funded by Govt. of India have been supervised by me as principal investigator/ co-investigator and those have been successfully completed with remarkable achievements.
- Ph.D. in Physics, IIT, Kharagpur, India, 2000.
- M.Tech. in Solid State Technology, IIT, Kharagpur, India, 1995.
- M.Sc. in Physics , Jadavpur University, 1992.
- B.Sc. (Hons.) in Physics, Vidyasagar University, 1989.
Design and Optimization of different single mode optical fibers applicable for dispersion management. (major)
Studies on non-linear pulse propagation in optical fibers / waveguides in the context of soliton generation, parabolic similariton generation, pulse compression, supercontinuum generation etc..(major)
Studies on Optical fibers in micro and nano dimensions.(major)
Optical and dielectric materials with their applications (in collaboration with other institute)
1
Somen Adhikary, Ritesh Das, Mousumi Basu, Broadband spectrum generation in Silicon nanocrystal-based dual-slot waveguide, 628, 37th International Conference on VLSI Design and 2024 23rd International Conference on Embedded Systems (VLSID), 2024
2
Atrayee Mishra, Binoy Krishna Ghosh, Dipankar Ghosh, and Mousumi Basu, Generation of Asymmetric Triangular Pulse by A Dispersion and Nonlinearity Engineered Silicon Core Optical Fiber, 632-636, 37th International Conference on VLSI Design and 2024 23rd International Conference on Embedded Systems (VLSID), 2024
3
Atrayee Mishra, Binoy Krishna Ghosh, Dipankar Ghosh & Mousumi Basu, Proficient Reshaping towards Triangular Optical Pulses by Strategic Use of Physical and Virtual Gains in a Suitably Engineered Silicon Core Fiber, 16, 2729, Silicon (Springer Nature), 2024
4
Atrayee Mishra, Binoy Krishna Ghosh, Dipankar Ghosh, and Mousumi Basu, Triangular Pulse Generation by a Normal Dispersion Silicon Core Single Mode Fiber, FD4.6, Frontiers in Optics + Laser Science 2023 (FiO/LS) © Optica Publishing Group, 2023
5
Tiyas Das; Somen Adhikary; Mousumi Basu, Generation of Broadband Supercontinuum by a So-designed Silicon on Insulator (SOI) Rectangular Buried Waveguide, IEEE International Symposium on Devices, Circuits and Systems (ISDCS), 29-31 May 2023, 2023
6
Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu, Temperature Dependence of Nonlinear Pulse Reshaping towards Parabolic Shape for A Silicon Core Single Mode Optical Fiber, 59, 99, IEEE Journal of Quantum Electronics, 2023
7
Binoy Krishna Ghosh, Dipankar Ghosh, and Mousumi Basu, Nonlinear pulse evolution through a sub-wavelength diameter silica-based fiber to detect the concentration variation of external gaseous medium, 31, A7-A14, Asian Journal of Physics, 2022
8
Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu, Generation of High Repetition Rate Pulse Train by Using a Suitably Designed Silicon Core Optical Fiber, JTu4B.33, Frontiers in Optics + Laser Science (FiO/LS) @ Optica Publishing Group, 2022
9
Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu, Generation of Parabolic Pulse using a Suitably Engineered Chalcogenide Stepindex Fiber, Abs_144_AppScicon22, APPSCICON 22, an Interdisciplinary National Conference,, 2022
10
Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu, Designing a single mode anomalous dispersion silicon core fiber for temporal multiplet formation, 10134, Applied Optics, 2022