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Faculty details

Prof.Sushrut Das

Designation: Professor

Department: Electronics Engineering

Email: sushrut[at]iitism[dot]ac[dot]in

Contact Number:

Office Number: +91-326-223-5496

Personal Page: Under Construction

Research Interest: Microwave Passive Networks, Antennas, Wireless Energy Transfer and Energy Harvesting

Curriculum
Vitae
Publications

Teaching

Electronics and Communication Engineering Subjects

Academics

PhD: From Indian Institute of Technology – Kharagpur on the topic “Analysis of Rectangular Waveguide  Based Passive Devices and Antennas using Multiple Cavity Modelling Technique” in the Year 2007.

M.Tech: From Burdwan University in Microwaves  in the year 2003.

M.Sc: From Banaras Hindu University in Physics (Specialization: Electronics) in the year 2001

B. Sc: From Belur Ramkrishna Mission Vidyamandira [2023 NIRF ranking in College: 15] under Calcutta University with Physics Honors in the year 1999.

Position

Professor in the Department of Electronics and Communication Engineering, IIT (ISM) Dhanbad

Awards and Honors

Received URSI (International Union of Radio Science) Young Scientist Award in Istanbul, Turkey, 2011.

Publications

Books Published

  1. Microwave Engineering by Sushrut Das. Oxford University press, 2014.

List Of Research Publications (only in Peer-reviewed Journals)

  1. S. Das and A. Chakraborty “A Novel Modeling Technique to Solve a Class of Rectangular Waveguide Based Circuits and Radiators,” Progress in Electromagnetic Research, MIT, USA, Vol. 61, pp. 231-252, May 2006. (SCIE / Q1) [IF: 6.1]
  2. S. Das, A. Chakraborty and A. Chakraborty “Characteristics of an Offset Longitudinal / Transverse Slot Coupled Crossed Waveguide Junction using Multiple Cavity Modeling Technique Considering the TE00 Mode at the Slot Aperture,” Progress in Electromagnetic Research, MIT, USA, Vol. 67, pp. 297-316, January 2007. (SCIE / Q1) [IF: 6.1]
  3. A. Anand and S. Das. “A Novel Virtually Centered Broad Wall Longitudinal Slot for Antenna Application,” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 3., No. 20, pp. 272 – 278, May, 2010. (SCIE / Q4) [IF: 0.9]
  4. S. Das and A. Chakraborty, “Applicability of Multiple Cavity Modeling Technique on Electrically Large Structures” Journal of Electromagnetic Waves and Application, Taylor & Francis Ltd, Vol. 22, Issue 4, pp. 483-492, April, 2012. (SCIE / Q4) [IF: 1.2]
  5. R. K. Gayen and S. Das, “A High-Gain Broad-Band Waveguide Longitudinal Slot Array Antenna", Progress in Electromagnetic Research C, Electromagnetics Academy, USA, Vol. 44, 239-249, October, 2013. (SCOPUS)
  6. R. K. Yadav, S. Das and R. L. Yadava, “Analysis And Modeling of A Novel Compact Rectenna for Indoor Applications,” IET Communications, Vol. 8., No. 15, pp. 2642-2651, May, 2014. (SCIE / Q3) [IF: 1.5]
  7. D. Gangwar, S. Das and R. L. Yadava "Reduction of Mutual Coupling in Metamaterial Based Microstrip Antennas: The Progress in Last Decade" Wireless Personal Communications, Vol. 77, Issue 4, pp. 2747 – 2770, August 2014. (SCIE / Q3) [IF: 1.9]
  8. L. Murmu and S. Das, “A Dual-Band Bandpass Filter for 2.4 GHz Bluetooth and 5.2 GHz WLAN Applications,” Progress in Electromagnetic Research Letters, vol. 53, 65 – 70, May, 2015. (SCIE / Q4) [IF: 0.7]
  9. D. Gangwar, S. Das and R. L. Yadava, “Circularly Polarized Inverted Stacked High Gain Antenna with Frequency Selective Surface,” Microwave and Optical Technology Letters, Vol. 58, No. 3, pp. 732 – 740. March, 2016. (SCIE / Q4) [IF: 1.0]
  10. A. Bage and S. Das, “A Compact, Wideband Waveguide Bandpass Filter Using Complementary Loaded Split Ring Resonators” Progress in Electromagnetic Research C, Electromagnetics Academy, Vol. 64, pp. 51–59, May, 2016. (SCOPUS)
  11. L. Murmu and S. Das, “A Compact Quad-Band Bandpass Filter using Multimode Stub-Loaded Resonator,” Progress in Electromagnetic Research Letters, Electromagnetics Academy, USA, vol. 61, 39 – 46, June, 2016.  ((SCIE / Q4) [IF: 0.7]
  12. M. Ram, S. Das, R. L. Yadava, “Rhombic Fractal Patch Antenna for Multiband Applications,” International Journal of Microwave and Optical Technology, University of Nevada, USA, Vol. 11, No. 4, pp. 227 – 236, July, 2016. (SCOPUS)
  13. A. Chandra and S. Das, “A SRR Loaded Triple Band Slot Array Antenna with High Gain, Improved Cross Polarization and Front-to-Back Radiation Ratio” Microwave and Optical Technology Letters, Vol. 58, No. 10, pp. 2500- 2505, Oct, 2016. (SCIE / Q4) [IF: 1.0]
  14. M. Ram, S. Das, R. L. Yadava, “A Quad Band Trapezoidal Fractal Patch Antenna for Wireless Applications,” International Journal of Microwave and Optical Technology, University of Nevada, USA, Vol. 12, No 1, pp. 22-29, January 2017. (SCOPUS)
  15. A. Bage and S. Das, “Three Pole Wideband Waveguide Bandpass Filter using Split Ring Resonator Integrated Circular Fractal Shape,” Frequenz, WALTER DE GRUYTER GMBH, Germany. Volume71, Issue 7-8, February 2017.  (SCIE / Q4) [IF: 0.8]
  16. A. Bage and S. Das, “A Frequency Reconfigurable Dual Pole Dual Band Bandpass Filter for X-band Applications,” Progress in Electromagnetic Research Letters, Electromagnetics Academy, USA.  vol. 66, 53 – 58, February, 2017.  (SCIE / Q4) [IF: 0.7]
  17. L. Murmu and S. Das, “A Dual-Band Bandpass Filter using Quad-Mode Resonator for Bluetooth and WLAN Applications” Journal of Circuits, Systems, and Computers, World Scientific, Vol. 26, No. 3, 1750051, 1-11, March 2017.  (SCIE / Q4) [IF: 0.9]
  18. A. Chandra and S. Das, “Application of SRRs in Conventional Waveguide Slot Array to Achieve Performance Improvement and Dual-band Characteristics” International Journal of Microwave and Wireless Technologies, Cambridge University press, Vol. 9, No. 5, pp. 1085-1091, May, 2017. (SCIE / Q3) [IF: 1.4]
  19. A. Chandra and S. Das, “Application of SRR to Achieve Performance Improvement and Multi-band Characteristics in Aperture Antennas” IET Microwaves, Antennas & Propagation, Vol. 11, Issue 7, pp. 990 – 996, May 2017. (SCIE / Q4) [IF:1.1]
  20. A. Bage and S. Das, “Compact Triple Band Waveguide Bandpass Filter using Concentric Multiple Complementary Split Ring Resonators” Journal of Circuits, Systems, and Computers, World Scientific, Vol. 26, No. 3, pp. 1750096, 1-12, June 2017.  (SCIE / Q4) [IF: 0.9]
  21. A. Bage and S. Das, “Stopband Performance Improvement of CSRR Loaded Waveguide Band-pass Filters using Asymmetric Slot Structures,” IEEE Microwave and Wireless Components Letters, Vol. 27 Issue: 8, pp. 697 – 699, August, 2017. (SCIE / Q2) [IF:2.9]
  22. S. P. Biswal, S. Das, “A Low Profile Dual port UWB-MIMO/Diversity Antenna with Band Rejection Ability” International Journal of RF and Microwave Computer-Aided Engineering, Volume 28, Issue 1, August, 2017. (SCIE / Q4) [IF: 0.9]
  23. D. Gangwar, , S. Das, & R. L. Yadava, “Gain Enhancement of Microstrip Patch Antenna Loaded with Split Ring Resonator Based Relative Permeability Near Zero as Superstrate” Wireless Personal Communications, Vol. 96, Issue 2, pp. 2389–2399,  September, 2017. (SCIE / Q3) [IF: 1.9]
  24. L. Murmu, S. Das, and A. Bage, “Modeling and Susceptibility Study of Ring Resonator Bandpass Filter for Wireless Applications” Iranian Journal of Science and Technology, Transactions of Electrical Engineering, Vol. 41, Issue 3, pp. 197 – 203, Sep 2017. (SCIE / Q4) [IF:0.1]
  25. A. Chandra, S. Das, “Superstrate and CSRR Loaded Circularly Polarized Dual-band Open Ended Waveguide Antenna with Improved Radiation Characteristics and Polarization Reconfiguration Property” IEEE Transactions on Antennas and Propagation, Vol. 65, No. 10, pp. 5559 – 5564, October, 2017. (SCIE / Q1) [IF: 4.6]
  26. A. Bage and S. Das, “A Compact Waveguide Bandpass Filter Using Hybrid Combination of CSRR and Koch Fractal", Wireless Personal Communications, Vol. 97, No. 2, pp 2859–2869, November, 2017. (SCIE / Q3) [IF: 1.9]
  27. D. Gangwar, , S. Das, & R. L. Yadava, and B. K. Kanaujia  “Frequency Selective Surface as Superstrate on Wideband Dielectric Resonator Antenna for Circular Polarization and Gain Enhancement” Wireless Personal Communications, Vol. 97, No. 2,  pp, 3149–3163, November, 2017. (SCIE / Q3) [IF: 1.9]
  28. L. Murmu, A. Bage and S. Das, “Wideband Bandpass Filter using Stepped Impedance Resonator with Susceptibility Test” Revue Roumaine des Sciences Techniques, Vol. 62, 3, pp. 294–298, 2017. (SCIE / Q4) [IF: 1.0]
  29. A. Bage, S. Das, L. Murmu, U. Pattapu, and S. P. Biswal, “Waveguide Bandpass Filter with Easily Adjustable Transmission Zeros and 3–dB Bandwidth” International Journal of Electronics, Vol. 105, Issue 7, pp. 1170-1184, January 2018. (SCIE / Q4) [IF:1.1]
  30. A. Bage, S. Das, and L. Murmu, “Quad band waveguide bandpass filter using slot ring and complementary split ring resonators” IETE Journal of Research, Vol. 64, Issue 4, pp. 553 – 558, June 2018. (SCIE / Q3) [IF:1.3]
  31. A. Bage and S. Das, “A Dual Band Waveguide Bandpass Filter with Adjustable Transmission Zeros” Journal of Circuits, Systems, and Computers, World Scientific, Vol. 27, No. 7, June 2018.  (SCIE / Q4) [IF: 0.9]
  32. S. P. Biswal and S. Das, “A Compact Dual port UWB-MIMO/Diversity antenna for Indoor Application”, International Journal of Microwave and Wireless Technologies, Cambridge University press, Vol. 10, Issue 3, pp. 360 – 367, April 2018. (SCIE / Q3) [IF:1.4]
  33. S. P. Biswal, S. Das, “A Planar Triple Band Four Element Antenna System with Polarization and Pattern Diversity for LTE/WLAN/DSRC Applications” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 28, Issue 4, May 2018. (SCIE / Q4) [IF: 0.9]
  34. A. Chandra, S. Das, “Polarizer Superstrate and SRR Loaded High Gain Dual Band Dual Polarized Waveguide Slot Array Antenna” International Journal of RF and Microwave Computer-Aided Engineering, Vol.28, Issue. 4, May 2018. (SCIE / Q4) [IF: 0.9]
  35. U. B. Pattapu and S. Das, “A Frequency Selective Surface Loaded High Gain Slant Antenna for 2.45 GHz Rectenna Applications” Revue Roumaine des Sciences Techniques. Vol. 63, Issue 2, 190 – 195, 2018. (SCIE / Q4) [IF: 1.0]
  36. S. P. Biswal, S. Das, “A Two Element Printed PIFA MIMO Antenna System for WiMAX and WLAN Applications” IET Microwaves, Antennas & Propagation, Vol,12, Issue 14, pp. 2262 -2270, August, 2018. (SCIE / Q4) [IF: 1.1]
  37. A. Bage, and S. Das, “Waveguide Bandpass Filter with Multiple Transmission Zeros” Electromagnetics, Vol. 39, Issue 2, pp. 73-79, February, 2019. (SCIE / Q4) [IF: 0.6]
  38. U. B. Pattapu, S. Das, “A Spurious Free 5.8 GHz Circular Patch Antenna for Rectenna Applications” IETE Technical Review, Vol. 36, No. 5, pp. 510-516, 2019. (SCIE / Q2) [IF:2.5]
  39. L. Murmu, S. Koley, A. Bage, S. Das, “A Simple WiMAX and RFID band Notched UWB Bandpass Filter and it’s susceptibility Study” Journal of Circuits, Systems, and Computers, Vol.28, No. 11, 2019. (SCIE / Q4) [IF: 0.9]
  40. S. P. Biswal, S. Das, “A Compact Printed UWB-MIMO Prototype with Band notch Ability for WiMAX, LTEband43 and WLAN Systems” International Journal of RF and Microwave Computer-Aided Engineering, Vol.29, No. 6, 2019. (SCIE / Q4) [IF: 0.9]
  41. S. C. Puri, S.Das and M. G. Tiary, “An UWB Trapezoidal Rings Fractal Monopole Antenna with Dual-Notch Characteristics” International Journal of RF and Microwave Computer-Aided Engineering Vol.29, No. 8, 2019. (SCIE / Q4) [IF: 0.9]
  42. S. P. Biswal, S. Das, “An Eight Element based MIMO antenna with Circular Polarization Behaviour for modern wireless communication” IET Microwaves, Antennas & Propagation, Vol. 14, No. 1, pp. 45-52, Jan 2020. (SCIE / Q4) [IF: 1.1]
  43. S. Mishra, S. Das, S. S. Pattnaik, S. Kumar, B. K. Kanaujia, “Low Profile Circularly Polarized Planar Antenna for GPS L1, L2 and L5 Bands” Microwave and Optical technology letters, Vol. 62, Issue 02, pp. 806-815, Feb 2020. (SCIE / Q4) [IF: 1.0]
  44. K. Ghosh, and S. Das, “A CPW Fed Band Notched Wide Band Circularly Polarized ZOR Antenna Based on CRLH-TL Approach” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 30, No. 1, Jan 2020. (SCIE / Q4) [IF: 0.9]
  45. S. Mishra, S. Das, S. S. Pattnaik, S. Kumar, and B. K. Kanaujia, “3-D Cylindrical Design MIMO/Diversity Antenna with High Isolation for Wireless Communication Applications” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 30, Issue 01, Jan 2020. (SCIE / Q4) [IF: 0.9]
  46. K. Ghosh, and S. Das, “Circularly Polarized ACPW Fed CRLH-TL Based ZOR Antenna with Band Notch Characteristics” International Journal of Microwave and Wireless Technologies, Vol. 12, Issue 05, pp. 387-397, June 2020. (SCIE / Q3) [IF: 1. 4]
  47. K. Ghosh, and S. Das, “A Triple-band Dual-Polarized CRLH Antenna for Wireless Applications” Microwave and Optical Technology Letters, Vol. 62, Issue 04, pp. 1671-1680, April 2020. (SCIE / Q4) [IF: 1.0]
  48. S. C. Puri, S.Das and M. G. Tiary, “A Multiband Antenna using Plus Shaped Fractal like Elements and Stepped Ground Plane International Journal of RF and Microwave Computer-Aided Engineering, Vol. 30, Issue 06, May 2020. (SCIE / Q4) [IF: 0.9]
  49. S. Mishra, S. Das, S. S. Pattnaik, S. Kumar, B. K. Kanaujia, “Carbon Fiber-Based Deca-Port Multiple-Input-Multiple-Output Antenna with Pattern Diversity and High Inter-Element Isolation”, International Journal of RF and Microwave Computer-Aided Engineering, Vol. 30, Issue 06, Jun 2020. (SCIE / Q4) [IF: 0.9]
  50. S. Mishra, S. Das, S. S. Pattnaik, S. Kumar and B. K. Kanaujia, "Three Dimensional Dual-Band Dielectric Resonator Antenna for Wireless Communication," in IEEE Access, Vol. 8, pp. 71593-71604, April 2020. (SCIE / Q2) [IF: 3.4]
  51. S. P.
  52. , S. K. Sharma, S. Das, “Collocated Microstrip Slot MIMO Antennas for Cellular Bands Along With 5G Phased Array Antenna for User Equipments (UEs)” in IEEE Access, Vol. 8, pp. 209138- 209152, Nov 2020. (SCIE / Q2) [IF: 3.4]
  53. U. B. Pattapu and S. Das, “Capacitive Coupled Circular Patch Antenna Based Rectenna Systems for 5.8 GHz Wireless Power Transfer Applications” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 31, Issue 07, pp. 6312 – 6321, July 2021. (SCIE / Q4) [IF: 0.9]
  54. R. Agarwal, R. L. Yadava, and S. Das, “A Multi-layered SIW based Circularly Polarized CRLH Leaky Wave Antenna” in IEEE Transactions on Antennas and Propagation, Vol. 69, Issue 10, pp. 6312 – 6321, October 2021. (SCIE / Q1) [IF: 4.6]
  55. P. Kumari, and S. Das, “A MIMO Antenna System using Self-Decoupled EMSIW Dual-Beam Antenna Elements”, IEEE Access. Vol. 10, pp. 1339-1345, December 2021. (SCIE / Q2) [IF: 3.4]
  56. K. Ghosh, and S. Das, “CRLH-TL based Reconfigurable Antennas with Multiple Parameter Reconfigurability” IEEE Transactions on Antennas and Propagation. Vol. 70, Issue 7, pp. 5892 – 5896, July 2022. (SCIE / Q1) [IF: 4.6]
  57. R. Agarwal, S. Das and R. L. Yadava, “A Miniaturized mm-Wave Leaky Wave Antenna Based on CRLH Slow-Wave SIW For Symmetric Wide Angle Beam Scanning” International Journal of RF and Microwave Computer-Aided Engineering, Vol. 32, Issue 10, pp. 1-9, October 2022. (SCIE / Q4) [IF: 0.9]
  58. S. H. Siddiki, Sukanta Das, K. Verma, L. Dashairya, Sushrut Das, V. K. Thakur, G. C. Nayak, “Substituted nickel ferrite coated MWCNT/PVDF based epoxy nanocomposite for microwave absorption” Ceramics International, July 2022. (SCIE / Q1) [IF: 5.1]
  59. R. Agarwal, S. Das and R. L. Yadava, “A Miniaturized CRLH based SIW Leaky Wave Antenna for Continuous Backward to Forward Fast Beam Scanning with Low Side Lobe Levels” Microwave and Optical Technology Letters, Vol 65, Issue 1, pp. 231-239, Jan 2023. (SCIE / Q4) [IF: 1.0]
  60. Salim Hassan Siddiki, Kartikey Verma, Bhaswati Chakraborty, Sushrut Das, Vijay Kumar Thakur, and Ganesh Chandra Nayak, “Defect Dipole-Induced HfO2-Coated Ti3C2Tx MXene/Nickel Ferrite Nanocomposites for Enhanced Microwave Absorption”, ACS Applied Nano Materials, Vol. 6, pp. 1839-1848, 2023. (SCIE / Q2) [IF: 5.3]
  61. Salim Hassan Siddiki, Chandan Kumar Maity, Kartikey Verma, Sushrut Das, Sukanta Das, Vijay Thakur, and Ganesh Chandra Nayak, “Influence of Exfoliated Boron Nitride for Fabrication of a Lightweight Wideband Microwave Absorbing Material” ACS Applied Engineering Materials, 1, 6, pp. 1566−1574, May 2023.
  62. Ruchi Agarwal,Sushrut Das, R. L. Yadava, “Miniaturized Slow-Wave SIW-Based Circularly Polarized CRLH Leaky Wave Antenna Array Supporting Wide Angle Beam Scanning for Radar Applications” Arabian Journal for Science and Engineering, June 2023. (SCIE / Q2) [IF: 2.6]
  63. Aditi Rani and Sushrut Das, “A High Isolation SIW Self-Octaplexing Antenna with Independent Frequency Tuning Capability” Accepted in IEEE Antennas and Wireless Propagation Letters, 23, 6, pp. 1954-1958, June 2024. (SCIE / Q2) [IF: 3.7]
  64. Priya Kumari and Sushrut Das, “A Wideband Circularly Polarized SIW MIMO Antenna Based on Coupled QMSIW and EMSIW Resonators for Sub-6GHz 5G Applications” Accepted in IEEE Antennas and Wireless Propagation Letters, 23, 10, pp. 2979-2983, Oct 2024. (SCIE / Q2) [IF: 3.7]
  65. U. Pattapu, R. Mandaand, S. Das, “A Spurious free 2.45 GHz Array Antenna for Energy harvesting applications” IETE Technical Review, 41, 4, pp. 410-419, 2024. (SCIE / Q2) [IF:2.5]
  66. Priya Kumari and Sushrut Das, “Isolation Improvement between Two Tightly Coupled QMSIW MIMO Antenna Elements using Spoof Surface Plasmon Polariton Structure” Accepted in Microwave and Optical Technology Letter, Oct 2024. (SCIE / Q4) [IF: 1.0]

Papers in conference abstract volumes / presented

  1. S. Das and A. Chakraborty “Moment Method Approach of Finding Admittance Matrix of Two Parallel Polarized and Arbitrarily Located Rectangular Waveguide Aperture in an Infinite Ground Plane,” BET- 04,Vaizag,India.
  2. S. Das and A. Chakraborty “An Approximate Analysis of A Resonant Iris Filter With Closely Spaced Matched Load,” APMC-04,Delhi,India.
  3. S. Das and A. Chakraborty “Accurate Analysis of A Typical Resonant Iris Bandpass Filter by the Multiple Cavity Modeling Technique,” ICECE-04,Dhaka,Bangladesh.
  4. S. Das and A. Chakraborty “Comparison of an Open Ended waveguide Radiator Performance With  and Without Matching Stub,” ICAT-2005, Ahmedabad,India.
  5. S. Das and A. Chakraborty “Analysis of an Arbitrarily Located and Arbitrarily Polarized Thick Rectangular Radiating Window using Multiple Cavity Modeling Technique,” URSI-2005, Delhi,India.
  6. S. Das and A. Chakraborty “Analysis of Waveguide Based Power Divider Using Multiple Cavity Modeling Technique and Performance Improvement,” IRSI-2005, Bangalore,India.
  7. S. Das, A. Chakraborty and A. Chakraborty “Estimation of EMI from Waveguide Joints and Analysis of Thick Rectangular Windows and Open-end of a Rectangular Waveguide as EMI Sensors,” INCEMIC-2006, Bangalore,India.
  8. S. Das, A. Chakraborty and A. Chakraborty “Analysis of folded E-plane Tee Junction using Multiple Cavity Modeling Technique,” ICECE 2006, Dhaka, Bangladesh.
  9. S. Das and M. Kumar, "Analysis of Offset Slot Coupled Tee Junction using Multiple Cavity Modeling Technique,” RFM-08, Kuala Lumpur, Malaysia.
  10. S. Bhardwaj, G. S. Teotia, N. Grover., and S. Das, “Complete CAD Based Design of Microstrip Dual Mode Hexagonal Loop Resonator Filter.” ICdeCom – 11, Ranchi, India.
  11. S. Das.  R. K. Gayen., “Aperture Field Estimation in Waveguide Circuits for Non-Sinusoidal Periodic Excitation”, URSI – 11, Istanbul, Turkey.
  12. R. K. Yadav, S. Das and R. L. Yadav., “An Approach to Improving Physical Layer Performances in Wireless BAN”, ICIAICTWCN – 11, Delhi, India.
  13. M. Ram, R. L. Yadava, S. Das., “A Multiband Hexagonal Carpet Fractal Printed Patch Antennas”, ICIAICTWCN – 11, Delhi, India.
  14. A. Chakraborty, R. K. Gayen, S. Chattopadhyay, A. K. Ganguly and S. Das, “Analysis of Shunt – Series Slot Fed waveguide Broad Wall Shunt Slot Radiator,” ICECE – 2012, Dhaka, Bangladesh.
  15. S. Das., and R. K. Gayen, “Design and Analysis of Slot Coupled Cavity for Wide Band Band-stop Filter Application, ICEAA – 2012, Cape Town, South Africa.
  16. S. Das., and R. K. Gayen, “Design and Analysis of Waveguide Slot Doublets for Dual Band or Nearly Omni-directional Radiation Properties, APWC – 2012, Cape Town, South Africa.
  17. D. Gangwar, S. Das, and R. L. Yadava, “Metamaterial Antennas Miniaturization and Bandwidth Enhancement – A Review”, ICCE-2012.
  18. S. Thakur, R.L. Yadava, and S. Das, “Ferrite Based Microstrip Antenna with a Normally Biased Magnetic Fields”, ICCE-2012.
  19. S. Das., and R. K. Gayen, “Resonance Characteristics of the Slots of a Reduced Height Planar Waveguide Slot Array” CODEC – 2012, Kolkata, India.
  20. S. Das., and R. K. Gayen, “Studies on the effect of Mutual Coupling on Network and Resonance Properties of Broad-Wall Longitudinal Slot Antenna” CODEC – 2012, Kolkata, India.
  21. S. Thakur, R. L. Yadava and S. Das, “A FSS Superstrate Integrated Microstrip Patch Antennas-A Progressive Study,” IACC-2013, Ghaziabad, India.
  22. R. K. Yadav, S. Das, and R. L. Yadava, , “DGS Based Microstrip Patch Antennas for UWB Systems”, IACC-2013
  23. S.Thakur, R. L. Yadava, and S. Das, “A Review on Adaptive Frequency Selective Surfaces (AFSS) based Patch Antennas”, IEEE ComCompAp 2013, CNIT-2013, Hong Kong, SAR China.
  24. S. Mishra, S. Das and S. S. Pattnaik, “Array of SIW Resonant Slot Antenna for V Band Applications”, ICMAP – 2013, India.
  25. M. Ram, S. Das and R. L. Yadava, “A Novel Trapezoidal Printed Fractal Multiband Antenna”, ICMAP – 2013, India.
  26. D. Gangwar, S. Das and R. L. Yadava, “Multiband Microstrip Staked Patch Antenna using CSRR”, ICMAP – 2013, India.
  27. A. Bage and S. Das, “Studies of Some Non Conventional Split Ring and Complementary Split Ring Resonators for Waveguide Band Stop & Band Pass Filter Application”, ICMAP – 2013, India.
  28. I. Hussain, S. Das and M. G. Tiary, “An Ultra-Wideband Bandpass Filter using Microstrip Stub Loaded Resonators”, ICMAP – 2013, India.
  29. R. K. Yadav, S. Das and R. L. Yadava, “Performances Analysis of a 5 GHz Rectenna for Indoor Applications”, ICMAP – 2013, India.
  30. S. Das., and R. K. Gayen, “Moment Method Analysis of Dual Slot Coupled Broad Wall Slot Coupler using Multiple Cavity Modeling Technique”, ICMAP – 2013, India.
  31. S. Das., and R. K. Gayen, “Moment Method Analysis of Dual Slot Coupled H –Plane Waveguide Tee – junction using Multiple Cavity Modeling Technique”, ICMAP – 2013, India.
  32. L. Murmu and S. Das, “Hexagonal Bandpass Filter using Open End Step Impedance Stub Perturbation”, ICMAP – 2013, India.
  33. R. K. Yadav, S. Das and R. L. Yadava, “Simulation based Parametric Analysis and Designing of UWB Bicone and Discone Antennas”, ICCCCM-2013, August, 2013, Allahabad, India.
  34. A. Mohan, M. Yadav, J. Kumar, R. K. Yadav and S. Das, “Complete Cad based Parametric Analysis and Designing of Modified Bow Tie Aperture Coupled Patch Antenna” CONFLUENCE, September, 2013, Noida, India.
  35. L. Murmu and S. Das, “A Simple Wideband Microstrip Bandstop Filter for WLAN and WiMAX Band Rejection Purpose,” ICECE, December, 2014, Dhaka, Bangladesh.
  36. M. Ram, S. Das and R. L.Yadava, “A Hexagonal Multiband Fractal Patch Antenna,” IEEE APS 2015, Vancouver, Canada.
  37. S. Das., and R. K. Gayen, and A. Chakraborty Das, “A High Gain-bandwidth, Nearly Omnidirectional Waveguide Slot Array Antenna,” IEEE APS 2015, Vancouver, Canada.
  38. A. Bage and S. Das, “Wideband Waveguide Band-pass Filter based on brad Side complementary Split Ring Resonator,” ICMAP – 2015, Dhanbad, India.
  39. A. Chandra and S. Das, “A Twisted Waveguide Slot Antenna,” ICMAP – 2015, Dhanbad, India.
  40. L. Murmu and S. Das, “Wideband Microstrip Bandpass filter using Stub-loaded Resonator,” ICMAP – 2015, Dhanbad, India.
  41. M. Ram, S. Das and. R. L. Yadava, “A Dual Band V-Fractal Antenna,” ICMAP – 2015, Dhanbad, India.
  42. R. K. Yadav, S. Das and R. L. Yadava, “A Modified Circular Disk Patch Antenna for 5.8 GHz HIPERLAN and IEEE 802.11/ Wi – Fi Applications,” ICMAP – 2015, Dhanbad, India.
  43. A. Chandra and S. Das, “A Twisted Slot in the Broad – Wall of a Twisted Waveguide,” AEMC – 2015, Guwahati, India.
  44. L. Murmu, S. Das and A. Bage, “A Compact Tri-Band Bandpass Filter using Multi-Mode Stub-Loaded Resonator”, Asia Pacific Microwave Conference, New Delhi, December- 2016.
  45. A. Chandra, and S. Das, “A Dual Band, High Gain Twisted Slot Antenna using Split Ring Resonators”, Asia Pacific Microwave Conference, New Delhi, December- 2016.
  46. U. Pattapu, S. Das, “A 5.8 GHz Hexagonal Patch Harmonic Suppression Antenna for Wireless Energy Transmission”, URSI RCRS, Tirupati, India 2017.
  47. A. Bage, and S. Das, “A Hybrid Stepped Impedance – Ring Resonator Loaded Waveguide Bandpass Filter with Dual Pole and Four Transmission Zeros” URSI RCRS, Tirupati, India2017.
  48. S. P. Biswal, S. Das, “A Dual Band MIMO PIFA for WLAN Application”, IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2017, San Diego, USA.
  49. U. Pattapu, S. P. Biswal, S. Das, “A 2.45 GHz DGS Based Harmonic Rejection Antenna for Rectenna Application”, IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2017, San Diego, USA.
  50. A. Kumar, U. Pattapu, A. Chakraborty Das, S. Das, “A 2.45 GHz Harmonic Rejection Antenna for Wireless Power Transfer Applications” APWC, 2017, Verona, Italy.
  51. S. P. Biswal and S. Das, “A 4×4 Slot MIMO antenna for WLAN Application”, International Conference on Microwave and photonics, 2018, Dhanbad, India.
  52. U. B. Pattapu, A. Gupta, and S. Das, “A 2.45 GHz Harmonic suppression array antenna for Rectenna Application”, International Conference on Microwave and photonics, 2018, Dhanbad, India.
  53. A. Gupta, U. B. Pattapu, and S. Das, “High Efficiency Low Power Series Diode Rectifier Design”, International Conference on Microwave and photonics, 2018, Dhanbad, India.
  54. A. Tiwari, U. B. Pattapu, and S. Das, “A Wideband 1:2 T-Junction Power Divider for Antenna Array with Optimum Results”, International Conference on Microwave and photonics, 2018, Dhanbad, India.
  55. S. P. Biswal and S. Das, “A 4×4 Slot MIMO antenna for WLAN Application”, European Conference on Antennas and propagation, 2018, London, UK.
  56. S. P. Biswal and S. Das, “A Printed Wideband MIMO Antenna System for Wireless Application”, IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2018, Boston, USA.
  57. S. P. Biswal and S. Das, “Mutual Coupling Reduction of A Printed Dual Element Antenna System using A Parasitic Scatter”, IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2018, Boston, USA.
  58. A. Chandra, S. P. Biswal and S. Das, “A Superstrate Loaded High gain Circularly Polarized Slotted Waveguide Array”, IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2018, Boston, USA.
  59. A Tiwari and Sushrut Das, “FSS Loaded High Gain Antenna Array for C - band Applications” Accepted in InCAP – 2018, Hyderabad, India.
  60. U. B. Pattapu and S. Das, “Different Conversions of the Matching Circuits for a Voltage Doubler on a Microwave Rectifier Circuit” InCAP – 2018, Hyderabad, India.
  61. A. Bage, S. Das, M. Potrebić, L. Murmu, P. Ranjan and B. Kumar, “Reconfigurable Dual–Pole Waveguide Bandpass Filter with Multiple Transmission Zeros” InCAP – 2018, Hyderabad, India.
  62. U. B. Pattapu and S. Das, “A 2.45 GHz Rectenna System for Far-Field Wireless Power Transfer / Energy Harvesting” ISAP – 2022, Sydney, Australia.
  63. S. Santosh and S. Das, “A GSM Band RF Sensor Antenna” ISAP – 2022, Sydney, Australia.
  64. S. Das and A. Chakraborty, “Application of Multiple Cavity Modeling Technique for Accurate Analysis of Waveguide Fed Thick Rectangular Window,” ELECTRO-05,Varanasi,India.
  65. Y. K. Singh, A. Chakraborty and S. Das, “Comparison of IE3D and CST-Microwave Studio Simulator  for Planar Microwave Filter design,” ELECTRO-05, Varanasi, India.
  66. S. Das, A. Chakraborty and A. Chakraborty. “Analysis of Multiport Waveguide Power Divider / Combiner for Phased Array Application,” NCC 2006, Kanpur, India.
  67. A. Chakraborty, S. Das and A. Chakraborty Studies on Aperture Coupled Reduced Height H-plane Tee Junctions using CAD at 17.55 GHz,” NCC 2006, Kanpur, India.
  68. S. Das and R. Venkata Raghavan, “Analysis of Broad Wall Longitudinal Slot Radiators using Cavity Modeling Technique,” FECIIT 2008, Dhanbad, India.
  69. S. Singhal and S. Das, “Design of X-Band Waveguide Monopulse Comparator for High Power Applications,” TECH MEET – 10, Kolkata, India.
  70. M. Chopra., R. K. Gayen., and S. Das., “Moment Method Analysis of Charge Distributions on Complex Metallic Structures”, NCMicroCom – 2010, Suri, India.
  71. P. Chakma., S. Das., and R. K. Gayen., “Studies on Shielding Effectiveness of Some Super Alloys and Metal Shielding Tapes against Electric, Magnetic and Plane Wave Sources,” FECIT – 2011, Dhanbad, India.
  72. R. K. Yadav., S. Das. , and R. L. Yadava., “Performance of Pentagonal Patch Antenna for Broadband Applications,” FECIT – 2011, Dhanbad, India.
  73. M. Ram., R. L. Yadava., and S. Das., “A Sierpinski Hexagonal Fractal Patch Antenna for Multi-band Applications,” FECIT – 2011, Dhanbad, India.
  74. L. Murmu, and S. Das, “Progress in Stepped Impedance, Ultra-Wideband and Dual-Mode Micro Strip Resonator-A Brief Review”, NCECS - 2012, pp. 148 – 152, Shiliguri, India.
  75. S. Das., and R. K. Gayen, “Analysis of Planar Broad-Wall Longitudinal Slot Array Antennas using Multiple Cavity Modeling Technique” NCECS - 2012, pp. 119 – 127, Shiliguri, India.
  76. R. K. Yadav, S. Das and R. L. Yadava, “Square Patch Antenna with Inverted T-Shaped Notch in the Ground Plane for Broadband Application”, NCECIS-2013, October, 2013, Greater Noida, India.
  77. R. K. Yadav, S. Das and R. L. Yadava, “A Novel Small Sized Biconical Antenna for ISM Band Applications”, RAMCWC-2013, October, 2013, Greater Noida, India.

Patents

1. Title: Development of Hybrid Nanocomposites Based Radar Absorbing Materials and Process of Preparation Thereof

Inventor: Ganesh Chandra Nayak [Associate Professor, Dept. of Chemistry, IIT(ISM), Dhanbad]; Salim Hassan Siddiki [Research Fellow, Dept. of Chemistry, IIT(ISM), Dhanbad]; Sukanta Das [Scientist E, ITR Chandipur, Balasore, DRDO]; Sushrut Das [Associate Professor, Dept. of Electronics Engineering, IIT(ISM), Dhanbad]; M. K. Patra [Scientist E, Defence laboratory, Jodhpur DRDO]; Mritunjay Kumar Pandey [Jt. Director, EMR & IPR, DRDO Head Qtr (ER&IPR), DRDO]

Indian Patent Application No.: 202111034760 dated August 2, 2021

Applicant: Chairman, Defence Research & Development Organisation; The Registrar, Indian Institute of Technology (Indian School of Mines), Dhanbad

Status: Application submitted on 2nd August 2021

 

2. Title: “A RF sensor antenna to monitor the net Electromagnetic radiation in the ambient caused by various wireless services”

Inventor: Sushrut Das [Associate Professor, Dept. of Electronics Engineering, IIT(ISM), Dhanbad]; Sourav Santosh [Ex-JRF, Dept. of Electronics Engineering, IIT(ISM), Dhanbad]

Indian Patent Application No.: 202331006062 dated January 31, 2023

Applicant: Indian Institute of Technology (Indian School of Mines), Dhanbad

Status: Application submitted on 2nd August 2021

Projects & Activities

Sponsored Research Projects (External Funded)

Title: Accurate Analysis of Passive Waveguide Structures under Pulse / FM Excitation.

Sponsor: Department of Science and Technology, Government of India.

Project Cost and Duration: 14.40 Lakh, 3 Years

Role: PI

Status: Completed (2012)

 

Title: Fund for Improvement of Science & Technology Infrastructure (DST –FIST) .

Sponsor: Department of Science and Technology, Government of India.

Project Cost and Duration: 120 Lakh, 5 Years

Role: PI

Status: Completed (2018)

 

Title: Development of Hybrid Nanocomposite based Wide Band RADAR Absorbing Materials

Sponsor: Defense Research and Development Organization (DRDO)

Project Cost and Duration: 32.90 Lakh, 3 Years

Role: Co-PI

Status: Completed (2019)

 

Title: Design & Development of Substrate Integrated Waveguide (SIW) based Circular Polarized High Gain Slot Array Antenna for Satellite Communication.

Sponsor: Indian Space Research Organization (ISRO)

Project Cost and Duration: 18.20 Lakh, 2 Years

Role: Co-PI

Status: Completed (2022)

 

Title: Photonic Highly Steerable Beam-forming Systems in Ku Band for Broadband Satellite Communication Link.

Sponsor: Indian Space Research Organization (ISRO)

Project Cost and Duration: 20.00 Lakh, 2 Years

Role: Co-PI

Status: Completed (2023)

 

Title: Fund for Improvement of Science & Technology Infrastructure (DST –FIST) .

Sponsor: Department of Science and Technology, Government of India.

Project Cost and Duration: 170 Lakh, 5 Years

Role: PI

Status: Ongoing

Membership of Scientific Societies

Senior Member, IEEE

Other Academic and Administrative Activities

  1. Associate Dean (Academics – PG) from October 2023 [Ongoing].
  2. Institute Nodal Coordinator of QIP [Ex-officio Associate Dean (Academics – PG) from October 2023 [Ongoing].
  3. Institute Nodal Coordinator of PMRF [Ex-officio Associate Dean (Academics – PG) from October 2023 [Ongoing].
  4. Member of Senate (Former Academic Council) from August, 2016 to June 2018 and from August 2024 [Ongoing].
  5. Member of DFSC (Associate Professor and Professor) from May 2024 [Ongoing].

Guidance

PhD Guidence:

Awarded:

  1. Rintu Kumar Gayen (Full Time / Sole Guide /Awarded: January 2014)

  2. Rakesh Kumar Yadav (Part Time / Joint Guidence with Prof. R L Yadava / Awarded: July 2016)

  3. Lakhindar Murmu (Full Time / Sole Guide / Awarded: March 2017)

  4. Deepak Gangwar (Part Time / Joint Guidence with Prof. R L Yadava / Awarded: March 2017)

  5. Amit Bage (Full Time / Sole Guide / Awarded: October 2017)

  6. Avinash Chandra (Full Time / Sole Guide / Awarded: November 2018)

  7. Shailesh Mishra (Part Time / Joint Guidence with Prof. S S Pattanaik / Awarded: July 2020)

  8. Udaybhaskar Pattapu (Full Time / Sole Guide / Awarded: October 2020)

  9. Shiv Charan Puri (Part Time / Joint Guidence with Prof. M G Tiwari / Awarded: November 2020)

  10. Sonika Priyadarshini Biswal (Full Time / Sole Guide / Awarded: August 2021)

  11. Kalyanbrata Ghosh (Part Time / Sole Guide / Awarded: April, 2022)

  12. Ruchi Agarwal (Part Time / Joint Guidence with Prof. Prof. R L Yadava / Awarded: January 2024)

  13. Priya Kumari (Full Time / Sole Guide / Awarded: June 2024)

 

Ongoing:

1. Prativa Swain (Full Time / Sole Guide )

2. Aditi Rani (Full Time / Sole Guide )

3. Vikash Kumar (Full Time / Sole Guide )

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