Nikhil Ranjan Das - Publications

Publications

JOURNALS

1. Sonali Basak, S Sarkar and N. R. Das, Innovative asymmetrical rod arrangement and rotation in 125-μm-cladding seven-core rod-assisted multicore fiber for enhanced short-reach communication in C, and L Bands , Optical Fiber Technology 94, 104320 (2025). https://doi.org/10.1016/j.yofte.2025.104320
2. Subham Pramanik, Kanishka Majumder and N. R. Das, Performance analysis for optimum design of lead-free MASnI3 based perovskite solar cells with NiOx and ZnO as charge transport layers, Physica Scripta 100, 075541 (2025). https://doi.org/10.1088/1402-4896/ade2a7
3. Monideepa Dutta, N. R. Das and Ghader Darbandy, A physics-based DC model for organic transistors incorporating contact effects, Journal of Applied Physics, 137, 125502 (2025). https://doi.org/10.1063/5.0246903
4. Suman Dey, N. R. Das and S. Ghosh, Topological Guidance in a Quasiperiodically Modulated Coupled Multicore Optical Fiber, IEEE/Optica Journal of Lightwave Technology , 43, pp. 4934-4939 (2025). https://doi.org/10.1109/JLT.2025.3539994
5. Arindam Ray, Dia Ghosh, Arindum Mukherjee, N. R. Das, Synchronization and Stability Analysis of Modified Injection Locked Unilaterally Coupled Optoelectronic Oscillators, Optics Communications, 583, 131579 (2025). https://doi.org/10.1016/j.optcom.2025.131579
6. Suman Dey, N. R. Das , Voltage controlled light states in a spatially pseudo-random bit sequence encoded optical lattice, Journal of Applied Physics, 137, 013103 (2025). https://doi.org/10.1063/5.0237898
7. Abhijit Kumar Mukhopadhyay, Santu Sarkar, Subhadeep Mukherjee, and N. R. Das, Optimization and characterization of a PCF-based SPR sensor for enhanced sensitivity and reliability in diverse chemical and biological applications, J. Opt. Soc. Am. B 42, 97-104 (2025).
8. N. R. Das and Moubani Bandyopadhyay, Alloy Composition Dependent Built-in Polarization Fields and Quantized Carrier States in III-Nitride Multi-Quantum Well Structures, Journal of Applied Physics, 135, 203105 (2024). https://doi.org/10.1063/5.0203312.
9. Jayjeet Sarkar, A. Banerjee, G. M. Pacheco and N. R. Das, Experimental Investigation on the Side Mode Injection Locking of a Single-loop OEO under RF Signal Injection, Analog Integrated Circuits and Signal Processing, 118, pp.539–552 (2024). https://doi.org/10.1007/s10470-024-02262-3.
10. Suman Dey, N. R. Das and S. Ghosh, High power pulse delivery over a short distance through an all-solid anti-resonant microstructured optical fiber at 2μm wavelength, Optical Fiber Technology, 81, 103575 (2023). https://doi.org/10.1016/j.yofte.2023.103575
11. Sonali Basak, S Sarkar, A. K. Mukhopadhyay, N. R. Das and M. Mishra, A Design Approach for a Homogeneous Hole-Assisted Multi-Core Fiber through Hole-Allocation around the Central Core for Minimizing Crosstalk, IEEE Journal of Quantum Electronics, 59, pp. 1-8, Art no. 6800408, (2023). https://doi.org/10.1109/JQE.2023.3322678.
12. Pinak Pani Mukherjee, S. Sarkar and N. R. Das, Analysis of SNR penalty in coherent WDM receiver system for detection of QPSK signal with component crosstalk, Annals of Telecommunications, 1-8, (2023); https://doi.org/10.1007/s12243-023-00958-7.
13. M. Mishra and N. R. Das, Design of Compact Si Photonic Directional Coupler Introducing Hetero-Cladding Approach, Journal of the Optical Society of America B (JOSA B), (2022), https://doi.org/10.1364/JOSAB.454041.
14. D. Ghosh, A. Mukherjee, S. Mandal, N. R. Das, B. N. Biswas, Controlling birhythmicity in a new Dual Loop Optoelectronic Oscillator with an injection locked van der Pol oscillator, Physica D: Nonlinear Phenomena, 436, Art.133324, (2022).
15. Suman Dey, N. R. Das and Somnath Ghosh, Exploring unconventional features of light dynamics in Aubrey–André–Harper model based quasi-periodic optical lattices, Optics Communications, 506, 127593, 2022, https://doi.org/10.1016/j.optcom.2021.127593
16. M. Mishra, N. R. Das, N. Sahoo and T. Sahu, Performance enhancement of armchair graphene nanoribbon resonant tunneling diode using V-shaped potential well , Physica Scripta, 96, 124076, 2021, https://doi.org/10.1088/1402-4896/ac42ed
17. P. P. Mukherjee, S. Sarkar and N. R. Das, Spectral efficiency and quantum limit of BPSK transmission in a WDM system in presence of multiple interferers, Photonic Network Communications, August (2021), https://doi.org/10.1007/s11107-021-00945-9.
18. P. Mukherjee and N. R. Das, Approach to Design of Optical Microring Resonator for Biosensing with Enhanced Efficiency, Microsystem Technologies, 2021, 1-9, https://doi.org/10.1007/s00542-020-05126-8.
19. A. Banerjee, J. Sarkar, L. A. D. de Britto, G. M. Pacheco, N. R. Das, On the Transient Behavior of Single-loop Optoelectronic Oscillators under RF Injection-Locking, IEEE Journal of Quantum Electronics, 56, 5000213(1-13), (2020), DOI:10.1063/1.5131550.
20. Shampa Guin and Nikhil Ranjan Das, Modeling power and linewidth of quantum dot superluminescent light emitting diode, Journal of Applied Physics, 128, 083102(1-9), (2020); https://doi.org/10.1063/1.5131550.
21. K. Majumder, P. Rakshit, and N. R. Das, Effect of Submicron Structural Parameters on the Performance of a Multi-Diode CMOS Compatible Silicon Avalanche Photodetector, Semiconductors 54, 1032–1038 (2020). (https://doi.org/10.1134/S1063782620090183)
22. P. Rakshit and N. R. Das, Effect of device parameters on improving the quantum efficiency of a lateral Si p–i–n photodetector, Optical and Quantum Electronics, 52, 371 (2020). (https://doi.org/10.1007/s11082-020-02490-7)
23. E. Baek, N.R. Das, C.V. Cannistraci, et al., Intrinsic plasticity of silicon nanowire neurotransistors for dynamic memory and learning functions, Nature Electronics 3, 398–408 (2020). (https://doi.org/10.1038/s41928-020-0412-1). [Full paper vIew: https://rdcu.be/b4ovR]. (Publisher's correction: https://www.nature.com/articles/s41928-020-0442-8).
24. M Mishra, NR Das, F Morichetti, Waveguide design optimization for compact silicon photonic ferroelectric phase shifters, Applied Optics, 59, pp.4385-4391 (2020). (https://doi.org/10.1364/AO.390273).
25. J. Sarkar, L. A. D. de Britto, A. Banerjee, N. R. Das and G. M. Pacheco, Frequency pulling in optoelectronic oscillator by RF signal injection, Optical and Quantum Electronics, 52, 214 (2020) (https://doi.org/10.1007/s11082-020-02331-7).
26. J. Sarkar, A. Banerjee and N..R. Das, A theoretical and experimental study of the frequency pulling phenomenon in a single-loop optoelectronic microwave oscillator due to RF signal injection, Optik-International Journal for Light and Electron Optics, 207, 164427, (2020) (https://doi.org/10.1016/j.ijleo.2020.164427).
27. A. Ghosh, A. Pal and N. R. Das, An Approach to Design Photonic Crystal Gas Sensor Using Machine Learning, Optik-International Journal for Light and Electron Optics, online 23 Dec. (2019) (https://doi.org/10.1016/j.ijleo.2019.163997).
28. M. Mishra, N.R. Das, A. Melloni and F. Morichetti, “Modelling domain switching of ferroelectric BaTiO3 integrated in silicon photonic waveguides”, Optics Communications, 448, pp.19–25 (2019).
29. S. Guin and N. R. Das, Enhancement of optical gain in quantum dot ensemble with electric field, Superlattices and Microstructures, 125, pp.151-158, (2019).(https://doi.org/10.1016/j.spmi.2018.11.002)
30. D. Ghosh, A. Mukherjee, N. R. Das, B. N. Biswas, Control of coexisting periodic oscillations in an Optoelectronic Oscillator, Optical Engineering, 57, 126108 (2018).
31. D. Ghosh, A. Mukherjee, N. R. Das, B. N. Biswas, Generation & Control of Chaos in a Single Loop Optoelectronic Oscillator, Optik-International Journal for Light and Electron Optics, 165, pp.275-287, (2018).
32. A. Banerjee, J. Sarkar, N. R. Das, B.N. Biswas, Phase-locking dynamics in optoelectronic oscillator, Optics Communications, 414, pp.119-127 (2018).
33. P. Mukherjee, S. Sarkar, N. R. Das, An approach for realistic estimation of BER due to signal-component crosstalk in a WDM receiver,Optik-International Journal for Light and Electron Optics, 146, pp.1-7 (2017).
34. K Majumder and N. R. Das, Effects of alloy composition on gain and bandwidth of Si/SiGe and Si/GeSn avalanche photodiodes, Optik-International Journal for Light and Electron Optics, 127, pp.3059-3064, (2016).
35. A. Mukherjee, D. Ghosh, N. R. Das and B. N. Biswas, Harmonic distortion and power relations in a single loop optoelectronic oscillator, Optik-International Journal for Light and Electron Optics, 127, pp.973-980, (2016).
36. A Mukherjee, B. N. Biswas, N. R. Das, A Study on the Effect of Synchronization by an Angle Modulated Signal in a Single Loop Optoelectronic Oscillator, Optik-International Journal for Light and Electron Optics, 126, pp.1815-1820 (2015).
37. A. Mukherjee, S. Chatterjee, N. R. Das, B. N. Biswas, Laser induced microwave oscillator under the influence of interference, International Journal of Microwave and Wireless Technologies, 6, pp.581-590 (2014).
38. Arpan Deyasi, Swapan Bhattacharyya, and N. R. Das, A finite-difference technique for computation of electron states in core–shell quantum wires of different configurations, Physica Scripta, 89, 065804, (2014).
39. A. Banerjee, N. R. Das, B. N. Biswas, Optical microwave generation using modified sideband injection synchronization with wide line-width lasers for broadband communications, Optik-International Journal for Light and Electron Optics, 125, pp.308-313, (2014).
40. A. Banerjee, B. N. Biswas, N. R. Das, Analysis of BPSK homodyne receivers based on modified dither optical phase-locked loop, Optik-International Journal for Light and Electron Optics, 125, pp.777-780, (2014).
41. K. Mukherjee, N. R. Das, Absorption Coefficient in a Mqw Intersubband Photodetector with Non-Uniform Doping Density & Layer Distribution, Progress In Electromagnetics Research M, 38, pp.193-201 (2014).
42. Kanishka Majumder and N. R. Das, Gain and Bandwidth Analysis and Comparison for GaAs and Si Avalanche Photodiodes with Very Thin Multiplication Layer, Optical Engineering, 52, 054001, (2013).
43. Arpan Deyasi, Swapan Bhattacharyya, and N. R. Das, Computation of Intersubband Transition Energy in Normal and Inverted Core-Shell Quantum Dots using Finite Difference Technique, Superlattices and Microstructures, l.60, pp.414-425, (2013).
44. A. Banerjee, N. R. Das and B. N. Biswas, Exact Laser Linewidth Requirements Evaluation for Optical PSK Homodyne Communication Systems with Dither Loop, Optik - International Journal for Light and Electron Optics, 124, pp.4917–4920 (2013).
45. A. Banerjee, N. R. Das and B. N. Biswas, Analysis of BPSK homodyne receivers based on Modified Balanced Optical Phase-Locked Loop in the Presence of Non-negligible Loop Propagation Delay, Optik - International Journal for Light and Electron Optics,124, pp.4816–4822(2013).
46. Santu Sarkar and N. R. Das, On the Optimum Detection Threshold for Minimum Bit-Error-Rate due to Four Wave Mixing in a WDM System, (OSA/IEEE)Journal of Optical Communication and Networking, 5, pp.370-377,(2013).
47. N. R. Das, M W Shinwari, M J Deen and Jeong-Soo Lee, Electron states in a silicon nanowire in the presence of surface potential and field, Nanotechnology,23, 415201 (15pp), (2012).
48. S. Bhattacharyya and N. R. Das, Effect of electric field on the oscillator strength and cross-section for intersubband transition in a semiconductor quantum ring, Physica Scripta, 85, 045708 (8pp), (2012).
49. A. Deyasi, S. Bhattacharyya, and N. R. Das, Electronic Tuning of Intersubband Transition of Inverted Core-Shell Cylindrical Quantum Wire for Novel Lasing Performance, Procedia Technology 4, pp.449-455 (2012).
50. H. S. Dutta and N. R. Das, Performance Analysis of a Ge-on-Si Resonant Cavity Enhaced Schottky Photodetetor for Optical Communication at 1.55 μ m, Procedia Technology 4, pp.9-18 (2012).
51. N. R. Das and Paulami Rakshit, On the Frequency Response and Optimum Designs for Maximum Bandwidth of a Lateral Silicon Photodetector, IEEE Journal of Lightwave Technology, 29, pp. 2913-2919, (2011).
52. N. R. Das and Santu Sarkar, Probability of Power Depletion in SRS Cross-talk and Optimum Detection Threshold for Minimum BER in a WDM Receiver, IEEE Journal of Quantum Electronics, 47, pp.424-430, (2011).
53. Kasturi Mukherjee and N. R. Das, Tunneling Current Calculations for Nonuniform and Asymmetric Multiple Quantum Well Structures, Journal of Applied Physics, 109, 053708, (2011).
54. Himadri Sekhar Dutta and N. R. Das, Calculating the Noise Performance of a Ge-on-Si Schottky Photodetector,Microwave and Optical Technology Letters, 53, pp.5-10, (2011).
55. P. K. Basu, N. R. Das, Bratati Mukhopadhyaya, Gopa Sen and Mukul K. Das, (Invited paper) Ge/Si photodetectors and group IV alloy based photodetector materials, Optical and Quantum Electronics, 41, pp.567–581, (2009).
56. Mukul K Das and N. R. Das, On optimum designs of a RCE Si/SiGe/Si MQW photodetector for long wavelength applications, Optical and Quantum Electronics, 41, pp.539–549, (2009).
57. Santu Sarkar and N. R. Das, Study of Component Cross-talk and Obtaining Optimum Detection Threshold for Minimum Bit-Error-Rate in a WDM Receiver, IEEE Journal of Lightwave Technology, 19, 159-171, (2009).
58. Mukul K Das and N. R. Das, Calculating the Responsivity of a Resonant-Cavity-Enhanced Si1-xGex/Si Multiple Quantum Well Photodetector, Journal of Applied Physics, 105, 093118 (2009).
59. S. Bhattacharyya, N. R. Das and Susmita Sen, Electrical Tuning of Intersubband Transition in a Semiconductor Quantum Ring, Journal of Applied Physics, 105, 053108 (2009).
60. N. R. Das and Susmita Sen, Threshold for Photoelectric Emission from a Quantum Ring of Narrow Gap Semiconductor, Physica B: Condensed Matter, 403, pp.3734-3739, (2008).
61. Himadri Sekhar Dutta, N. R. Das and Mukul K. Das, Investigating the Effect of Heterointerface Trapping on the Perfomance of a RCE Ge-on-Si Schottky Photodiode at 1.55um, Semiconductor Science and Technology,23, 085012 (2008).
62. Himadri Sekhar Dutta, N. R. Das and Mukul K. Das, Frequency Response of a Resonant Cavity Encapsulated Germanium-on-Silicon Schottky Photodiode, IET Circuits, Devices and Systems, 2, pp.128-132, (2008).
63. S. Sarkar and N. R. Das, A Comparative study of different cross-talk noises in a WDM system, International Journal of Computers, Information Technology and Engineering, 1, pp.17-22( 2007).
64. Susmita Sen, N. R. Das and A. N. Chakravarti, Electron Emission from a Semiconductor Quantum Ring under Normally Incident Radiation, Journal of Physics: Condensed Matter, 19, 186205, (8pp) (2007).
65. Mukul K Das and N. R. Das, Effect of Ge-composition on the Frequency Response of a Si/Si1-yGeyP-i-N Photodetector, Optical Engineering (SPIE), 45, p.124001, (2006).
66. N. R. Das and Alakananda Mitra, A New Approach to the Modeling of Si - RFIC Inductor, Microwave and Optical Technology Letters, 8, pp.1095-1101, (2006).
67. Mukul. K. Das, N. R. Das and P. K. Basu, Effect of Ge Content and Profile in the SiGe Base on the Performance of a SiGe/Si Heterojunction Bipolar Transistor , Microwave and Optical Technology Letters, 47, pp.247-254, (2005).
68. N. R. Das and M. Jamal Deen, A Model for the Performance Analysis and Design of Waveguide PIN Photodetectors, IEEE Transaction on Electron Devices, 52, pp.465-472, (2005).
69. N. R. Das and M. Jamal Deen, On the Performance Analysis and Design of Integrated Front-End PIN/HBT Photoreceiver, IEEE Journal of Quantum Electronics, 40, pp. 78-91 (2004).
70. Yasser M. El-Batawy, M. J. Deen, and N. R. Das, Analysis, Optimization, and SPICE Modeling of Resonant Cavity Enhanced p-i-n Photodetector, IEEE Journal of Lightwave Technology, Vol. 21, pp. 2031-2043, (2003).
71. N. R. Das and M.J. Deen, On the frequency response of a resonant-cavity-enhanced separate absorption, grading, charge, and multiplication avalanche photodiode, Journal of Applied Physics, 92, pp. 7133-7145(2002).
72. N. R. Das and M.J. Deen, A New Model for Avalanche Build-Up of Carriers in a SAGCM Avalanche Photodiode, IEEE Transactions on Electron Devices, 49, pp.2362-2366,(2002).
73. N. R. Das and M.J.Deen, Effect of interface trapping on the frequency response of a photodetector, Journal of Vacuum Science and Technology A, 20, pp. 1105-1110(2002).
74. N. R. Das and M.J.Deen, On the Optimum Design of the Front-End PIN-HBT OEIC Photoreceiver, Journal of Vacuum Science and Technology A, 20, pp. 1067-1071 (2002).
75. N. R. Das and M.J. Deen, Calculating the Photocurrent and Transit-Time Limited Bandwidth of a Heterostructure PIN Photodetector, IEEE Journal of Quantum Electronics, 37, pp. 1574-1587, (2001).
76. N. R. Das and M.J.Deen, Low Bias Performance of Avalanche Photodetector - A Time Domain Approach, IEEE Journal of Quantum Electronics, 37, pp.69-74, (2001).
77. N. R. Das, P.K.Basu and M.J.Deen, A New Approach to the Design Optimization of HEMT and HBT for Maximum Gain-Bandwidth of MSM-Based Integrated Photoreceiver and its Noise Performance at 1.55 μm, IEEE Transactions on Electron Devices, 47, pp. 2101-2109, (2000).
78. N. R. Das and P.K.Basu, A Comparative study of Gain, Bandwidth and Noise Performance of MSM-HEMT and MSM-HBT Integrated Photoreceivers at 1.55μm, IETE Technical Review, 16, No.5 & 6, Sept.-Dec., pp. 441-447, (1999).
79. N. R. Das, K.K.Ghosh and D.Ghoshal, Quantized Photoemission from Rectangular Quantum Wires of Narrow-Gap Semiconductors, Physica Status Solidi (b), 197, pp. 97-103, (1996).
80. N. R. Das and A.N.Chakravarti, On Electron Emission from Quantum Wells in Ultrathin Films of Wide-Gap Semiconductors, Physica Status Solidi (b), 176, pp. 335-345, (1993).
81. N. R. Das, S.Ghosh and A.N.Chakravarti, Effect of an Electric Field on Size-Quantized Photoemission from Nanometer Films of Semiconductors, Physica Status Solidi (b), 174, pp. 45-52, (1992).
82. N. R. Das, and A.N.Chakravarti, Magnetic Susceptibility of Electrons in Quantum Wires of Wide-Gap Semiconductors, Physica Status Solidi (b), 172, pp. 603-614, (1992).
83. N. R. Das, and A.N.Chakravarti,On Quantized Photoemission from a Cylindrical Quantum Box of a Wide-Gap Semiconductor, Physica Status Solidi (b), 170, pp. K115-K119, (1992).
84. N. R. Das, and A.N.Chakravarti, On the Quantized States in a Cylindrical Quantum Box of a Narrow-Gap Semiconductor in Crossed Electric and Magnetic Fields, Physica Status Solidi (b), 170, pp. 471-479, (1992).
85. N. R. Das, and A.N.Chakravarti, Effect of a Tilted Magnetic Field on Energy Quantization and the Einstein Relation in Quantum Wires of Semiconductors, Physica Status Solidi (b), 170, pp. 271-279, (1992).
86. N. R. Das, and A.N.Chakravarti, On the Magnetic Susceptibility of the Electrons in a Quantum Box of a Wide Gap Semiconductor, Physica Status Solidi (b), 169, pp. 369-377, (1992).
87. N. R. Das, and A.N.Chakravarti, On the Electron States in a Cylindrical Quantum Box of a Wide-Gap Semiconductor in Crossed Electric and Magnetic Fields, Physica Status Solidi (b), 169, pp. 97-104, (1992).

THE SPIE PROCEEDINGS

86. N. R. Das, Tania Das, Shampa Guin, Effect of pulse parameter and dark count probability on the performance of a gated mode SPAD, Proc. SPIE. 8549, 85492O (6pp), (2012).

87. N. R. Das, Piue Ghosh, Suchismita Mitra, Effect of capture and escape rates of carriers and well parameters on the performance of multi-quantum well solar cell, Proc. SPIE. 8549, 854939 (6pp), (2012).

88. K. Majumder, N. R. Das, Modeling the gain and bandwidth of submicron active layer n+-i-p+ avalanche photodiode, Proc. SPIE. 8549, 854902 (6pp), (2012).

89. Paulami Rakshit, N. R. Das, Role of diffusion and parasitic effects on the frequency response of a Si-CMOS photodetector, Proc. SPIE. 8549, p.85492N (6pp), (2012).

90. Arpan Deyasi, S. Bhattacharyya, N. R. Das, Study of energy eigenvalues and density of states of carriers in a triangular quantum wire, Proc. SPIE. 8549, 85491Q (6pp), (2012).

91. M.J. Deen and N. R. Das, (Invited Paper) High Performance Photodetectors for Fiber-Optic Communications, The SPIE Proceedings, 4417, pp. 142-153, (2001).

92. N. R. Das and M.J.Deen, Time Domain Model for an Avalanche Photodiode at Low Bias, The SPIE Proceedings, 4417, pp. 358-365, (2001).

BOOK SERIES/ MONOGRAPHS

1. Piyali Mukherjee and N. R. Das, “Design of a Microring Resonator Having High Sensitivity for Biosensing Applications”, in Advances in Smart Communication Technology and Information Processing: OPTRONIX 2020.

2. Madhusudan Mishra and N. R. Das, “Trenched Core Waveguide Structure for Photonic Integrated Circuit” in “Computers and Devices For Communication”, N. R. Das and Santu Sarkar (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., vol.147, pp.321-325, 2021.

3. Shampa Guin and N. R. Das, “Photon Density Distribution in Quantum Dot-Based Light-Emitting Diode” in "Computers and Devices For Communication", N. R. Das and Santu Sarkar (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.331-335, 2021.

4. Sonali Basak, Santu Sarkar, and N. R. Das, “Modes and Coupling in Seven-Core Optical Fiber”, in "Computers and Devices For Communication", N. R. Das and Santu Sarkar (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.344-349, 2021.

5. Santu Sarkar, Pinak Pani Mukherjee and N. R. Das, A Comparative Study on Determination of Optimum Detection Threshold for Minimum BER in a WDM Receiver with SRS and FWM Crosstalk, in “Computers and Devices For Communication”, N. R. Das and Santu Sarkar (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.363-368, 2021.

6. M. Mishra and N.R. Das, Role of Coupling Angle on the Performance of a Ring Resonator–Waveguide Sensor, In: Janyani V., Singh G., Tiwari M., Ismail T. (eds) Optical and Wireless Technologies, Lecture Notes in Electrical Engineering, Springer, Singapore, 648, pp. 155-160, (2020).

7. A. Ghosh, A. Pal and N.R. Das, A Simple Structural Design for Tuning of Bandgap and Window in 1D Photonic Crystal, In: Janyani V., Singh G., Tiwari M., Ismail T. (eds) Optical and Wireless Technologies, Lecture Notes in Electrical Engineering, Springer, Singapore, 648, pp. 127-136, (2020).

8. S. Mukhopadhyay, S. Das and N.R. Das, An Approach for Reduction of Cross-Talk in Multi-core Optical Fibers, In: Janyani V., Singh G., Tiwari M., Ismail T. (eds) Optical and Wireless Technologies, Lecture Notes in Electrical Engineering, Springer, Singapore, 648, pp.111-118, (2020).

9. Pinak Pani Mukherjee, N. R. Das and S. Sarkar, “Comparison of Power Penalty due to Component, SRS and FWM Crosstalk in a WDM Receiver”, in “Advances in Computer, Communication and Control,” U. Biswas et al. (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.305-309, 2019.

10. M. Mishra, F. Morichetti and N. R. Das, “Ferroelectric-Cladded Tunable Silicon Photonic Couple”, in “Advances in Computer, Communication and Control,” U. Biswas et al. (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.401-405. 2019.

11. Shreerupa Biswas, S. Guin and N.R. Das, “Photonic Crystal for Gas Sensing Application” in “Advances in Computer, Communication and Control,” U. Biswas et al. (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.449-467. 2019.

12. Piyali Mukherjee and N. R. Das, “Tailoring the parameters to increase the efficiency of a microring resonator sensor for biosensing”, in “Advances in Computer, Communication and Control,” U. Biswas et al. (Eds.), Lecture Notes in Networks and Systems, Springer Nature Singapore Pte. Ltd., pp.477-485. 2019.

13. D. Ghosh, A. Mukherjee, N. R. Das, B. N. Biswas, A Study on the Effect of an External Periodic Signal in a Chaotic Optoelectronic Oscillator, In: S. Chattopadhyay, T. Roy, S. Sengupta, C. Berger-Vachon (eds), Modelling and Simulation in Science, Technology and Engineering Mathematics. MS-17 2017, Advances in Intelligent Systems and Computing book series, Springer, Cham, 749, pp.27-36 (2018).

14. A. Deyasi and N. R. Das, “Effect of gate voltage and structural parameters on the Subthreshold Swing and the DIBL of Si-SiO2 GAA quantum wire transistor”, in Frontiers in Computer, Communication and Electrical Engineering – Acharyya (Ed.), Taylor & Francis Group, London, (ISBN: 978-1-138-02877-7), pp.43-47, 2016.

15. Arpan Deyasi, and N. R. Das, Oscillator Strength and Absorption Cross-section of Core-Shell Triangular Quantum Wire for Intersubband Transition, In: V. Lakshminarayanan, I. Bhattacharya (eds) Advances in Optical Science and Engineering, Chapter 78, Springer Proceedings in Physics book series Springer, New Delhi, 166, pp.629-635(2015).

16. Arpan Deyasi, and N. R. Das, Effect on Shell Thickness on Intersubband Transition Energies in GaAs/AlxGa1−xAs Inverted Core–Shell Nanodot, In: P. Giri, D. Goswami, A. Perumal (eds) Advances in Optical Science and Engineering, Springer Proceedings in Physics (book series), Springer, Berlin, Heidelberg, 143, pp.551-560(2013).

BOOKS / BOOK CHAPTERS

1. N. R. Das and S. Sarkar, (Eds.), “Computers and Devices For Communication” (Proceedings of CODEC-2019), N. R. Das and Santu Sarkar (Eds.), Lecture Notes in Networks and Systems book series, Springer Nature Singapore Pte. Ltd., pp.1-556, 2021.

2. N. R. Das, “Advances in Semiconductor Photodetectors for Infrared Applications”, In: “Advances in Microelectronics and Photonics”, Ed. S. Jit, Chapter No. 9, (33pages), Nova Science Publishers, Inc., 2011.

3. N. R. Das, Y.M. El-Batawy and M.J. Deen, Optoelectronic Integrated Circuit Photoreceivers for Fiber-optic Telecommunication, in Integrated Optoelectronics, Eds. M. J. Deen, D. Misra and J. Ruzyllo, The Electrochemical Society Inc., PV 2002-4, NJ, USA, pp.163-193, 2002.

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