| # | List of Publication by Prof. Mousumi Basu |
|---|---|
| 1 | 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 |
| 2 | 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 |
| 3 | Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu,, “Generation of stable temporal doublet by a single-mode silicon core optical fiber”, 24, 055503, Journal of Optics, 2022 |
| 4 | Binoy Krishna Ghosh, Dipankar Ghosh, Mousumi Basu, Designing a single mode anomalous dispersion silicon core fiber for temporal multiplet formation, 10134, Applied Optics, 2022 |
| 5 | 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 |
| 6 | Debopriyo Ghoshal, Debopriya Bhattacharya, Dheeraj Mondal, Sukhen Das, Navonil Bose, Mousumi Basu, “Flexible, H- bond mediated bromophenol blue/poly (vinyl alcohol) composite for efficient laser filter application”, 54, 13, Optical and Quantum Electronics, 2022 |
| 7 | Debopriyo Ghoshal, Debopriya Bhattacharya; Dheeraj Mondal, Sukhen Das, Navonil Bose, Mousumi Basu, “Optical properties of Bromothymol Blue/PVA Composite: Development of flexible high performance laser filter”, 28, 93, Journal of Polymer Research, 2021 |
| 8 | Debopriya Bhattacharya, Debopriyo Ghoshal, Dheeraj Mondal, Biplab Kumar Paul, Joydeep Pal, Bhaskar Gupta, Navonil Bose, Papiya Nandy, Mousumi Basu, Sukhen Das, “Delafossite type CuCo0. 5Ti0.5 O2 composite structure: A futuristic ceramics for supercapacitor and EMI shielding application”, 47, 7, 9907-9922, Ceramics International, 2021 |
| 9 | Roshmi Chatterjee, Mousumi Basu,, “Role of time-transformation approach for generation of high repetition rate optical pulse train in an anomalous dispersion optical fiber,”, 60, 31, , 9809-9817, Applied Optics, 2021 |
| 10 | Somen Adhikary, Mousumi Basu, “Nonlinear pulse reshaping in a typically designed silicon-on-insulator waveguide and its application to generate a high repetition rate pulse train”, 23, 125506, Journal of Optics, 2021 |
| 11 | Roshmi Chatterjee, Mousumi Basu, “Time-transformation technique: An approach to achieve supercontinuum in normal dispersion fiber optic cascaded system along with phase modulator,”, 168502, Optik ; doi: 10.1016/j.ijleo.2021.168502, 2021 |
| 12 | Debopriya Bhattacharya, Debopriyo Ghoshal, Dheeraj Mondal, Santanu Das, Biplab Kumar Paul, Mousumi Basu, Sukhen Das,, “Colossal Dielectric and Room Temperature Ferromagnetic Response in CuCo0.5Ti0.5O2 Delafossite Nanostructure”,, 106136, Solid State Sciences, 2020 |
| 13 | Debopriya Bhattacharya, Debopriyo Ghoshal, Dheeraj Mondal, Biplab Kumar Paul, Joydeep Pal, Bhaskar Gupta, Navonil Bose, Papiya Nandy, Mousumi Basu, Sukhen Das,, “Delafossite Type CuCo0.5Ti0.5O2 Composite Structure: A Futuristic Ceramics for Supercapacitor and EMI Shielding Application”, Ceramics International, 2020 |
| 14 | Roshmi Chatterjee, Mousumi Basu, “Efficient Generation of Triangular Optical Pulses in An Erbium-Doped Chalcogenide Fiber Amplifier by Exploiting the Time Transformation Technique”, 59, 11371, Applied Optics, 2020 |
| 15 | Somen Adhikary, Binoy Krishna Ghosh, Mousumi Basu, Triangular pulse generation by using chalcogenidefibers andcreation of tunable High frequency oscillations from the Interactionof reshaped pulse pair, 204, 164208, Optik, 2020 |
| 16 | Debopriyo Ghoshal, Debopriya Bhattacharya, Dheeraj Mondal, Sukhen Das, Navonil Bose, Mousumi Basu, Flexible alizarin red/PVA composites with colossal dielectric and high power laser filtering properties, 126, 28, Applied Physics A, 2020 |
| 17 | Roshmi Chatterjee, Mousumi Basu, Application of time transformation approach in optical pulsecompression and supercontinuum generation by using suitablechoices offiber optic system, 204, 164200, Optik, 2020 |
| 18 | Debopriya Bhattacharya, Debopriyo Ghoshal, Sayantan Bhattacharya, Dheeraj Mondal, Biplab Kumar Paul, Navonil Bose, Prasanta Kumar Datta,Sukhen Das and Mousumi Basu, Third-order optical nonlinearity of the CuCo0.5Ti0.5O2 nanostructure under 120 fs laser irradiation, 58, 9163-9171, Applied Optics, 2019 |
| 19 | Debopriyo Ghoshal, Debopriya Bhattacharya, Dheeraj Mondal, Santanu Das, Biplab Kumar Paul, Mousumi Basu, Investigation of giant dielectric and room temperature ferromagnetic response of facile CZTO nanostructure, 30, 13108–13117, J. Mat. Science: Mat. Elect., 2019 |
| 20 | Debopriyo Ghoshal, Debopriya Bhattacharya, Dheeraj Mondal, Sukhen Das, Navonil Bose and Mousumi Basu, Methylene Blue/PVA composite film for flexible, wide-scale UV–VIS laser cut-off filter, 6, 075332, Mater. Res. Express, 2019 |
| 21 | Debopriya Bhattacharya, Debopriyo Ghoshal, Dheeraj Mondal, Biplab Kumar Paul, Navonil Bose, Sukhen Das, and Mousumi Basu, Visible light driven degradation of brilliant green dye using titanium based ternary metal oxide photocatalyst, 12, 1850-1858, Results in Physics, 2019 |
| 22 | Binoy Krishna Ghosh, Dipankar Ghosh, and Mousumi Basu, Potential use of nonlinearity-induced virtual gain on parabolic pulse formation in highly nonlinear tapered fiber system, 21, 045503, Journal of Optics (IOP), 2019 |
| 23 | Debasruti Chowdhury, Dipankar Ghosh, Navonil Bose and Mousumi Basu, Parabolic pulse regeneration in normal dispersion-decreasing fibers and its equivalent substitutes in presence of third-order dispersion, 125, 106, Applied Physics B, 2019 |
| 24 | Debasruti Chowdhury, Dipankar Ghosh and Mousumi Basu, An efficient way of third-order dispersion compensation for reshaping parabolic pulses through normal dispersion fiber amplifier", 20, 095503, Journal of Optics (IOP), 2018 |
| 25 | Binoy Krishna Ghosh, Dipankar Ghosh, and Mousumi Basu, Prospective use of a normally dispersive step-index chalcogenide fiber in nonlinear pulse reshaping, 57, 3348-3356, Applied Optics, 2018 |
| 26 | Roshmi Chatterjee and Mousumi Basu, Estimation of Time Delay and Wavelength Shift for Highly Nonlinear Multilayer Waveguide by Using Time Transformation Approach, 99, 138-144, Optics & Laser Technology, 2018 |
| 27 | Debasruti Chowdhury, Navonil Bose, Dipankar Ghosh and Mousumi Basu, Performance of different normal dispersion fibers to generate triangular optical pulses, 49, 294, Opt Quant Electron, 2017 |
| 28 | Dipankar Ghosh and Mousumi Basu, Designing suitable dispersion decreasing active fibers to generate parabolic pulses in presence of macrobending, 49, 8, Opt Quant Electron, 2017 |
| 29 | Debasruti Chowdhury, Dipankar Ghosh, Mousumi Basu, Hiranmayee Mohapatra, Shaikh Iqbal Hosain, Study of parabolic self-similar optical pulse generation in single mode fibers using variational approximation for the LP01 mode, 127, 8386–8393, Optik, 2016 |
| 30 | Debasruti Chowdhury, Dipankar Ghosh, and Mousumi Basu, Silica based highly nonlinear fibers to generate parabolic self-similar pulse, DOI 10.1007/s11082-015-0144-z, Optical and Quantum Electronics,, 2015 |
| 31 | Navonil Bose, Sampad Mukherjee, and Mousumi Basu, Parabolic and semi-parabolic pulse dynamics in optical fibers, 54, 016108, Optical Engineering, 2015 |
| 32 | Navonil Bose, G S. Taki, Mousumi Basu, Sampad Mukherjee, GeO2 nanorods: synthesis, structural and photoluminescence properties, 1, 045013, Materials Research Express (IOP ), 2014 |
| 33 | Navonil Bose, Dipankar Ghosh, Sampad Mukherjee, and Mousumi Basu,, Nonlinear pulse reshaping in a designed erbium-doped fiber amplifier with a multicladded index profile, 52, 086104, Optical Engineering (SPIE), 2013 |
| 34 | Navonil Bose, Mousumi Basu and Sampad Mukherjee, Study of Optical Properties of GeO2 nanocrystals as synthesized by Hydrothermal Technique, 47, 1368-1373, Material Research Bulletin, 2012 |
| 35 | Dipankar Ghosh and Mousumi Basu, Efficient Dispersion tailoring by designing alternatiely arranged dispersion compensating fibers and fiber amplifiers to create self similar parabolic pulses, 42, 1301-1310, Optics &Laser Technology, 2010 |
| 36 | Dipankar Ghosh, Mousumi Basu, Somenath Sarkar, Generation of self-similar parabolic pulses by designing normal dispersion decreasing fiber amplifier as well as its staircase substitutes, 27, 3880-3887, IEEE – OSA Journal of Lightwave Technology, 2009 |
| 37 | Dipankar Ghosh, Debashri Ghosh and Mousumi Basu, Designing A Graded Index Depressed Clad Non-Zero Dispersion Shifted Optical Fiber for Wide Band Transmission System, 119, 63-68, Optik, 2008 |
| 38 | Dipankar Ghosh, Mousumi Basu, Propagation of short soliton pulses through a parabolic index fiber with dispersion decreasing along length, 281, 3361-3368, Optics Communications, 2008 |
| 39 | Dipankar Ghosh and Mousumi Basu, Dispersion Compensating Graded Index Multi-clad Fiber, 26, 49-61, Optimization for Dispersion-managed WDM Transmission Systems,Fiber & Intgrated. Optics, 2007 |
| 40 | M. Basu and S. Roy, Design considerations of depressed clad W-shaped single mode dispersion compensating fibers, 117, 377-387, , 2006 |
| 41 | M. Basu and , D. Ghosh,, Modeling of a step index segmented core single mode optical fiber as a dispersion compensator, 116, 255-264, Optik, 2005 |
| 42 | Mousumi Basu, Ramanand Tewari and H.N. Acharya, Effect of Grading on the Characteristics of a Dispersion Compensated Optical Fibre, 174, 119-125, Optics Communications, 2000 |
| 43 | R.Tewari, M. Basu and H.N.Acharya, Studying the effect of a Central Dip on the Performance of a Dispersion Compensated Optical Fibre, 174, 405-411, Optics Communications, 2000 |
| 44 | R.Tewari, M. Basu, H.N.Acharya, Spot Size Technique : A Theoretical Approach To Optimise Dispersion Compensated Optical Fibres, 17, 221 - 230, Fibre and Integrated Optics, 1998 |
| 45 | R.Tewari, M. Basu, H.N.Acharya, Modified Figure of Merit for Dispersion Compensated Optical Fibres, 155, 260-262, Optics Communications, 1998 |
Created: 23 November 2019