Complete list of publications

1. Variation in Horizontal component of Geomagnetic field during the April 2023 Space Weather event over ±75° Longitude sectors: Insights
   S S Rao, Nandita Srivastava and D. Chakrabarty
   Accepted, J. Astrophys. Astr., 2025


2. Aditya Solar wind Particle Experiment (ASPEX) onboard Aditya--L1: The Supra-Thermal and Energetic Particle Spectrometer (STEPS)
   Shiv Kumar Goyal, Neeraj Kumar Tiwari, Arpit R. Patel, M. Shanmugam, Santosh V. Vadawale, Dibyendu Chakrabarty, Jacob Sebastian, Bijoy Dalal, Piyush Sharma, Aveek Sarkar, Aaditya Sarda, Tinkal LadiyaAbhishek J. Verma, Nishant Singh, Sushil Kumar, Deepak Kumar Painkra, Prashant Kumar, Manan S. Shah, Pranav R. Adhyaru, Hiteshkumar L. Adalja, Swaroop B. Banerjee, K.P. Subramanian, Bhas Bapat, M.B. Dadhania, Abhishek Kumar, P. Janardhan, and Anil Bhardwaj
   Solar Phys. (2025) 300:35, https://doi.org/10.1007/s11207-025-02441-z


3. Aditya Solar Wind Particle Experiment (ASPEX) on Board Aditya--L1: The Solar Wind Ion Spectrometer (SWIS)
   Prashant Kumar, Bhas Bapat, Manan S. Shah, Hiteshkumar L. Adalja, Arpit R. Patel, Pranav R. Adhyaru, M. Shanmugam, Dibyendu Chakrabarty, Swaroop B. Banerjee, K. P. Subramanian, Aveek Sarkar, Tinkal Ladiya, Jacob Sebastian, Abhishek Kumar, Sushil Kumar, Nishant Singh, M.B. Dadhania, Santosh V. Vadawale, Shiv Kumar Goyal, Neeraj Kumar Tiwari, Aaditya Sarda, Deepak Kumar Painkra, Piyush Sharma, Abhishek J. Verma, Yogesh, P. Janardhan, and Anil Bhardwaj
   Solar Phys. (2025) 300:37, https://doi.org/10.1007/s11207-025-02443-x


4. Evidence for the evolution and decay of an electrified Medium Scale Traveling Ionospheric Disturbances during two consecutive substorms: First results
   R. Rathi, M. Sivakandan, D. Chakrabarty, M. V. Sunil Krishna, A. K. Upadhayaya, S. Sarkhel
   Adv. Space. Res. 75 (2025) 4896-4909, https://doi.org/10.1016/j.asr.2025.01.007


5. Influence of ICME-driven Magnetic Cloud-like and Sheath Region induced Geomagnetic Storms in causing anomalous responses of the Low-latitude Ionosphere: A Case Study
   Sumanjit Chakraborty, Dibyendu Chakrabarty, Anil Yadav, Gopi Seemala
   Adv. Space. Res. 75 (2025) 4714-4730, https://doi.org/10.1016/j.asr.2024.12.045


6. Evidence of unusually strong equatorial ionization anomaly at three local time sectors during the Mother's Day geomagnetic storm on 10-11 May 2024
   Rout, D., Kumar, A., Singh, R., Patra, S., Karan, D. K., Chakraborty, S., D. Scipion, D. Chakrabarty, and and Juanita Riccobono
   Geophys. Res. Lett., 52, e2024GL111269. https://doi.org/10.1029/2024GL111269, 2024


7. Origins of Very Low Helium Abundance Streams Detected in the Solar Wind Plasma
   Yogesh, N. Gopalswamy, D. Chakrabarty, Parisa Mostafavi, Seiji Yashiro, Nandita Srivastava, Leon Ofman
   The Astrophysical Journal, DOI 10.3847/1538-4357/ad84d6, Volume 977, Number 1 2024


8. Study of Evolution and Geo-effectiveness of CME-CME Interactions using MHD Simulations with SWASTi framework
   Prateek Mayank, Stefan Lotz, Bhargav Vaidya, Wageesh Mishra, Dibyendu Chakrabarty
   The Astrophysical Journal, https://doi.org/10.3847/1538-4357/ad8084, 976:126 (21pp), 2024 November 20


9. Anisotropic heating and cooling within ICME sheath plasma
   Zubair I. Shaikh, Daniel Verscharen, Ivan Y. Vasko, Dibyendu Chakrabarty, Bennet Maruca, and Anil N. Raghav
   The Astrophysical Journal, DOI 10.3847/1538-4357/ad782b, Volume 974, Number 2, 2024


10. Recent results and outstanding questions on the response of the electrodynamics of the low latitude ionosphere to solar wind and magnetospheric disturbances
    B. G. Fejer, Luis A. Navarro and Dibyendu Chakrabarty
    Front. Astron. Space Sci., 11:1471140. doi: 10.3389/fspas.2024.1471140, 2024


11. Predicting Interplanetary Shock Occurrence for Solar Cycle 25: Opportunities and Challenges in Space Weather Research
    Denny M. Oliveira, Robert C. Allen, Livia R. Alves, Séan P. Blake, Brett A. Carter, Dibyendu Chakrabarty, Giulia D 'Angelo, Kevin Delano,Ezequiel Echer, Cristian P. Ferradas, Matt G. Finley, Bea Gallardo-Lacourt, Dan Gershman, Jesper W. Gjerloev, John Bosco Habarulema, Michael D. Hartinger, Rajkumar Hajra, Hisashi Hayakawa, Liisa Juusola, Karl M. Laundal, Robert J. Leamon, Michael Madelaire, Miguel Martinez-Ledesma, Scott M. McIntosh, Yoshizumi Miyoshi, Mark B. Moldwin, Emmanuel Nahayo, Dibyendu Nandy, Bhosale Nilam, Katariina Nykyri, William R. Paterson, Mirko Piersanti, Ermanno Pietropaolo, Craig J. Rodger, Trunali Shah, Andy W. Smith, Nandita Srivastava, Bruce T. Tsurutani, S. Tulasi Ram, Lisa A. Upton, Bhaskara Veenadhari, Sergio Vidal-Luengo, Ari Viljanen, Sarah K. Vines, Vipin K. Yadav, Jeng-Hwa Yee, James W. Weygand, and Eftyhia Zesta
    Space Weather, 22,e2024SW003964. https://doi.org/10.1029/2024SW003964, 2024


12. A rare simultaneous detection of a mid-latitude plasma depleted structure in O(1D) 630.0 nm and O(1S) 557.7 nm allsky airglow images on a geomagnetically quiet night
    D. Patgiri, R. Rathi, V. Yadav, D. Chakrabarty, M. V. Sunil Krishna, S. Kannaujiya, P. Pavan Chaitanya, A. K. Patra, Jann-Yenq Liu, S. Sarkhel
    Geophys. Res. Lett., 51,e2023GL106900. https://doi.org/10.1029/2023GL106900, 2024


13. AuroraMag: Twin Explorer of Asymmetry in Aurora and Solar Wind-Magnetosphere Coupling
    Ankush Bhaskara, Jayadev Pradeep, Shyama Narendranath, Dibyendu Nandy, Bhargav Vaidya, Priyadarshan Hari, Smitha V. Thampi, Vipin K. Yadav, Geeta Vichare, Anil Raghav, Dibyendu Chakrabarty, R. Satheesh Thampi, Tarun Kumar Pant
    Adv. Space Res., https://doi.org/10.1016/j.asr.2024.05.067, 2024


14. Distribution and Recovery Phase of Geomagnetic Storms During Solar Cycles 23 and 24
    Wageesh Mishra, Preity Sukla Sahani, Soumyaranjan Khuntia, and Dibyendu Chakrabarty
    MNRAS, Volume 530, Issue 3, May 2024, Pages 3171 - 3182, https://doi.org/10.1093/mnras/stae1045, 2024


15. Observations of Geomagnetic Crochet at high-latitudes due to X1.5 Class Solar Flare on 3 July 2021
    S. S. Rao, Nandita Srivastava, Monti Chakraborty, Sandeep Kumar, D. Chakrabarty
    Space Weather, 22, e2023SW003719. https://doi.org/10.1029/2023SW003719, 2024


16. Heliophysics Great Observatories and international cooperation in Heliophysics: An orchestrated framework for scientific advancement and discovery
    Larry Kepko,Rumi Nakamura, Yoshifumi Saito, Angelos Vourlidas, Matthew G.G.T. Taylor, Cristina H. Mandrini, Xóchitl Blanco-Cano,
    Dibyendu Chakrabarty, Ioannis A. Daglis, Clezio Marcos De Nardin, Anatoli Petrukovich, Minna Palmroth, George Ho, Louise Harra,
    Jonathan Rae, Mathew Owens, Eric Donovan, Benoit Lavraud, Geoff Reeves, Durgesh Tripathi, Nicole Vilmer, Junga Hwang, Spiro Antiochos, and Chi Wang
    Adv. Space Res., https://doi.org/10.1016/j.asr.2024.01.011, 2024


17. SWASTi-CME: A MHD model to study CME evolution in inner-heliosphere: ICME-Solar Wind Interaction
    Prateek Mayank, Bhargav Vaidya, Wageesh Mishra, and D. Chakrabarty
    The Astrophysical Journal Supplement Series,270:10(21pp), 2024 January, https://doi.org/10.3847/1538-4365/ad08c7, 2024


18. Suprathermal population associated with stream interaction regions observed by STEREO-A: New insights
    B. Dalal, D. Chakrabarty, N. Srivastava, and A. Sarkar
    The Astrophysical Journal, 960:16(11pp), 2024, January1, https://doi.org/10.3847/1538-4357/ad08c6, 2024


19. The differential conjugate hemisphere ionospheric response during solstice storms and the winter side maxima
    B.R. Kalita, P. K. Bhuyan, M. Choudhary, S. J. Nath, D.Chakrabarty, M. Le. Huy, K. Wang, K. Hozumi, and T. Komolmis
    Adv. Space Res., https://doi.org/10.1016/j.asr.2023.11.025, 2023


20. NO Radiative Cooling and Ionosphric Response to the Geomagnetic Storms Associated with HILDCAA events
    Alok Kumar Ranjan, M.V. Sunil Krishna, Akash Kumar, Sumanta Sarkhel, D. Chakrabarty, G.D. Reeves
    JGR Space Physics, https://doi.org/10.1029/2023JA032028, 2023


21. The growth of ring current/SYM-H under northward IMF Bz conditions present during the 21-22 January 2005 geomagnetic storm
    D. Rout, S. Patra, S. Kumar, D. Chakrabarty, G.D. Reeves, C. Stolle, K. Pandey, S. Chakraborty, and E. A. Spencer
    Space Weather, https://doi.org/10.1029/2023SW003489, 2023


22. New insights on the behaviour of solar wind protons and alphas in the Stream Interaction Region in solar cycle 23 and 24
    Yogesh,D. Chakrabarty, and N. Srivastava
    MNRAS-Letters, Volume 526, Issue 1, November 2023, Pages L13-L19, https://doi.org/10.1093/mnrasl/slad112, 2023


23. Performance evaluation of F-layer peak height models in IRI-2016 over the Indian equatorial and low latitudes
    K. Venkatesh, D. Pallamraju, Kelvy P Dalsania, D. Chakrabarty and T.K. Pant
    Adv. Space Res., https://doi.org/10.1016/j.asr.2023.06.047, 2023


24. A case study on multiple self-interactions of MSTID bands: New insights
    D. Patgiri, R. Rathi, V. Yadav, S. Sarkhel, D. Chakrabarty, S. Mondal, M. V. Sunil Krishna, A. K. Upadhayaya, C. G. Vivek, S. Kannaujiy, S. Sunda
    Adv. Space Res., https://doi.org/10.1016/j.asr.2023.05.047, 2023


25. The origin of extremely non-radial solar wind outflows
    D. Rout,1 Janardhan, P., Fujiki, K., Chakrabarty, D. , and Bisoi, S. K.
    The Astrophysical Journal, 950:1 (17pp), 2023 June 10, https://doi.org/10.3847/1538-435


26. Solar hysteresis pattern and spectral components in TEC time series (GPS and TIE-GCM) of the quadrilaterally coupled geomagnetic conjugate low-latitude stations
    S. S. Rao, D. Chakrabarty, Nandita Srivastava
    JGR Space Physics, 128, e2023JA031428. https://doi.org/10.1029/2023JA031428


27. Characteristics of X-class Flares of Solar Cycles 23 and 24 in X-ray and EUV bands
    K. Pandey, D. Chakrabarty, A. Kumar, A. Bhardwaj, S.Biswal, G. C. Hussey, A. K. Yadav
    Adv. Space Res., https://doi.org/10.1016/j.asr.2023.02.022, 71 (2023) 5438-5452


28. A case of anomalous electric field perturbations in the equatorial ionosphere during post-sunset hours: Insights
    A. Kumar, D. Chakrabarty, B. G. Fejer, G. D. Reeves, D. Rout, S. Sripathi, G. K. Seemala, S. Sunda, A. K. Yadav
    JGR Space Physics, 128, e2022JA030826. https://doi.org/10.1029/2022JA030826, 2023


29. Global asymmetry in ΔX variations during the 06 April 2000 geomagnetic storm: Relative roles of IMF Bz and By
    S. Chakraborty and D. Chakrabarty
    JGR Space Physics, 128, e2022JA031047. https://doi.org/10.1029/2022JA031047, 2023


30. Differential behaviors of suprathermal ⁴He and Fe populations in the interplanetary medium during solar cycle 24
    B. Dalal, D. Chakrabarty, and N. Srivastava
    The Astrophysical Journal, 938:26 (15pp), 2022 October 10, https://doi.org/10.3847/1538-4357/ac88d8


31. Statistical investigation on equatorial pitch angle distribution of energetic electrons in Earth's outer radiation belt during CME-and CIR-driven storms
    S. Chakraborty, D. Chakrabarty, G. D. Reeves, D. N. Baker, J. Rae
    Front. Astron. Space Sci. 9:986061.doi: 10.3389/fspas.2022.986061, 2022


32. SWASTi-SW: Space Weather Adaptive SimulaTion framework for Solar Wind and its relevance to ADITYA-L1 mission
    Prateek Mayank, Bhargav Vaidya, and D. Chakrabarty
    The Astrophysical Journal Supplement Series, 262:23 (16pp), 2022 September, https://doi.org/10.3847/1538-4365/ac8551


33. Evidence for Presence of a Global Quasi-Resonant Mode of Oscillations During High-Intensity Long-Duration Continuous AE Activity (HILDCAA) events
    D.Rout, R. Singh, K. Pandey, T. K. Pant, C. Stolle, D. Chakrabarty, S. Thampi, T. Bag
    Earth, Planets and Space, (2022) 74:91, https://doi.org/10.1186/s40623-022-01642-1


34. A holistic approach to understand Helium enrichment in Interplanetary coronal mass ejections: New insights
    Yogesh,D. Chakrabarty, and N. Srivastava
    MNRAS-Letters, MNRAS 513, L106-L111 (2022), https://doi.org/10.1093/mnrasl/slac044, 2022

Correction to: MNRAS-Letters, MNRAS 520, L78 (2023) https://doi.org/10.1093/mnrasl/slad011, 2023


35. Solar flux dependence of post-sunset enhancement in vertical total electron content over the crest region of equatorial ionization anomaly
    A.Kumar,D.Chakrabarty, K.Pandey, A.K.Yadav
    JGR Space Physics, 127, e2021JA030156. https://doi. org/10.1029/2021JA030156, 2022


36. The investigation on daytime conjugate hemispheric asymmetry along 100°E longitude using observations and model simulations: new insights
    B. R. Kalita, P. K. Bhuyan, S. J. Nath, M. C. Choudhury, D. Chakrabarty, K. Wang, K. Hozumi, P. Supnithi, T. Komolmis, C. Y. Yatini, M. L. Huy
    Adv. Space Res., 69 (2022) 3726-3740, https://doi.org/10.1016/j.asr.2022.02.058, 2022


37. Properties of the recovery phase of extreme storms
    K. Choraghe, A. Raghav, D. Chakrabarty, S. Kasthurirangan, and N. Bijewar
    JGR Space Physics, 126, e2020JA028685. https://doi.org/10.1029/2020JA028685, 2021


38. Evidence for the in-situ generation of plasma depletion structures over the transition region of geomagnetic low-mid latitude
    M. Sivakandan1,S. Mondal, S. Sarkhel, D. Chakrabarty, M. V. Sunil Krishna, A. K. Upadhayaya, A. Shinbori, T. Sori, S. Kannaujiya, P. K. Champati Ray
    JGR Space Physics, 126, e2020JA028837. https://doi. org/10.1029/2020JA028837, 2021


39. Van Allen probe observations of disappearance, recovery and patchiness of plasmaspheric hiss following two consecutive interplanetary shocks: First results
    S. Chakraborty, D. Chakrabarty, G. D. Reeves, D. N. Baker, S. G. Claudepierre, A. W. Breneman, D. P. Hartley, B. A. Larsen
    JGR Space Physics, 126, e2020JA028873. https:// doi.org/10.1029/2020JA028873, 2021


40. Investigation on Longitudinal and Decadal Variations of the Equatorial Electrojet using a Physical Model
    K. Pandey, R. Sekar, D. Chakrabarty, and B. G. Anandarao
    Adv. Space Res., 68 (2021) 182-200, https://doi.org/10.1016/j.asr.2021.02.040, 2021


41. Interaction between nighttime MSTID and mid-latitude field-aligned plasma depletion structure over the transition region of geomagnetic low-mid latitude: First results from Hanle, India
    V. Yadav, R. Rathi, G. Gaur, S. Sarkhel, D. Chakrabarty, M. V. Sunil Krishna, P. Pavan Chaitanya, A. K. Patra, R. K. Choudhary, T. K. Pant, A. K. Upadhayaya
    J. Atm.Sol-Terr. Phys., 217 (2021) 105589, https://doi.org/10.1016/j.jastp.2021.105589, 2021


42. Evidence for distinctive changes in the solar wind helium abundance in solar cycle 24
    Yogesh, D. Chakrabarty, N. Srivastava
    MNRAS-Letters, MNRAS 503, L17-L22 (2021), doi:10.1093/mnrasl/slab016, 2021


43. Evidence for the significant differences in response times of equatorial ionization anomaly crest corresponding to plasma fountains during daytime and post-sunset hours
    A. Kumar, D. Chakrabarty, K. Pandey, B. G. Fejer, S. Sunda, G. K. Seemala, S. Sripathi, A. K. Yadav
    JGR Space Physics, 126, e2020JA028628, https://doi.org/10.1029/2020JA028628, 2021


44. Data Processing Software for Chandrayaan-2 Solar X-ray Monitor
    N. P. S. Mithun, S. V. Vadawale, A. R. Patel, M. Shanmugam, D. Chakrabarty, P. Konar, T. N. Sarvaiya, G. D. Padia, A. Sarkar, P. Kumar, P. Jangida, A. Sarda, M. S. Shah, A.Bhardwaj
    Astron. Comp.,34 (2021) 100449, https://doi.org/10.1016/j.ascom.2021.100449, 2021


45. A unique case of complex interaction between MSTIDs and mid-latitude field-aligned plasma depletions over geomagnetic low-mid latitude transition region
    V. Yadav, R. Rathi, S. Sarkhel, D. Chakrabarty, M. V. Sunil Krishna, and A. K. Upadhayaya
    JGR Space Physics, 126, e2020JA028620. https://doi.org/10.1029/2020JA028620, 2020


46. Effects of IMF By on ring current asymmetry under southward IMF Bz conditions observed at ground magnetic stations: Case studies
    S. Kumar, B. Veenadhari, D. Chakrabarty, S. Tulasi Ram, T. Kikuchi, and Y. Miyoshi
    JGR Space Physics, 125, e2019JA027493. https://doi.org/ 10.1029/2019JA027493, 2020


47. Mid-latitude spread-F structures over the geomagnetic low-mid latitude transition region: An observational evidence
    M. Sivakandan, S. Mondal, S. Sarkhel, D. Chakrabarty, M. V. Sunil Krishna, P. P. Chaitanya, A. K. Patra, R. K. Choudhary, T. K. Pant, A. K. Upadhayaya, and T. Sori
    JGR Space Physics, 124, e2019JA027531. https://doi.org/ 10.1029/2019JA027531, 2020


48. Three different episodes of prompt equatorial electric field perturbations under steady southward IMF Bz during St. Patrick's day storm
    S. Tulasi Ram, B. Nilam, N. Balan, Q. Zhang, K. Shiokawa, D. Chakrabarty, Z. Xing, K. Venkatesh, B. Veenadhari and A. Yoshikawa
    JGR Space Physics, 124, https://doi.org/10.1029/2019JA027069,2019


49. Significant electric field perturbations in low latitude ionosphere due to the passage of two consecutive ICMEs during 6-8 September 2017
    D. Rout, K. Pandey, D. Chakrabarty, R. Sekar, Xian Lu
    JGR Space Physics, 124, https://doi.org/10.1029/2019JA027133, 2019


50. On the long-lasting "C-type" structures in the sodium lidargram: The life-time of Kelvin-Helmholtz billows in the mesosphere and lower thermosphere region
    S. Sarkhel, S. Mondal, J. Agarwal, D. Chakrabarty, R. Sekar, Tao Yuan, X. Cai, A. Liu, S. Nozawa, N. Saito, T. Kawahara, M. Mlynczak, J. Russell
    JGR Space Physics,124. https://doi.org/10.1029/2019JA0266302019, 2019


51. Signatures of substorm related overshielding electric field at equatorial latitudes under steady southward IMF Bz during main phase of magnetic storm
    B. Veenadhari,, T. Kikuchi, S. Kumar, S. Tulasiram, D. Chakrabarty, Y. Ebihara, G. D. Reeves
    Adv. Space Res., 64 (2019), 1975-1988, https://doi.org/10.1016/j.asr.2019.04.001


52. A review on the upper atmospheric sodium observations from India: Insights
    S. Sarkhel, S. Mondal, R. Sekar,D. Chakrabarty,S. Sridharan
    Adv. Space Res., 63 (2019), 3568-3585, https://doi.org/10.1016/j.asr.2019.02.019


53. Evidence for deep ingression of the mid-latitude MSTID into as low as ~3.5° magnetic latitude
    S. Mani, D. Chakrabarty, T. Ramkumar, A. Guharay, A. Taori and N. Parihar
    JGR Space Physics,124, 749-764. https://doi.org/10.1029/2018JA026103, 2019


54. Critical evaluation of the impact of disturbance dynamo on equatorial ionosphere during daytime
    K. Pandey, D. Chakrabarty, and R. Sekar
    JGR Space Physics, 123, https://doi.org/10.1029/2018JA025686, 2018


55. Signatures of the solar transient disturbances over the low latitude ionosphere during 6 to 8 September 2017
    M. S. Bagiya, S. V. Thampi, D. Hui, A. S. Sunil, D. Chakrabarty, and R. K. Choudhary
    JGR Space Physics, 123, https://doi.org/10.1029/2018JA025496, 2018


56. A major geoeffective CME from NOAA 12371: Initiation, CME-CME interactions, and interplanetary consequences
    B. Joshi, M. S. Ibrahim; A. Shanmugaraju, and D. Chakrabarty
    Solar Phys., 293:107,https://doi.org/10.1007/s11207-018-1325-2, 2018


57. The ionospheric impact of an ICME driven sheath region over Indian and American sectors in the absence of a typical geomagnetic storm
    D. Rout, D. Chakrabarty, S. Sarkhel, R. Sekar, B. G. Fejer, G. D.Reeves, N. Aponte, M. Sulzer, J. D. Mathews, R. B. Kerr, and J. Noto
    JGR Space Physics, 123, https://doi.org/10.1029/2018JA025334, 2018,


58. Aditya Solar wind & Particle EXperiment (ASPEX) onboard Aditya-L1 mission
    S. K. Goyal, P. Kumar, A. Sarkar, P. Janardhan, S. V. Vadawale, M. Shanmugam, K. P. Subramanian, B. Bapat,
    D. Chakrabarty, P. R. Adhyaru, A. R. Patel, S. B. Banerjee, M. S. Shah, N. K. Tiwari,
    H. L. Adalja, T. Ladiya, M. B. Dadhania, A. Sarda,A. K. Hait, M. Chauhan and R. R. Bhavsar
    Planet. Space. Sci. (2018),https://doi.org/10.1016/j.pss.2018.04.008.


59. On the occurrence of afternoon counter electrojet over Indian longitudes during June solstice in solar minimum
    Kuldeep Pandey, R. Sekar, B. G. Anandarao, S. P. Gupta, and D. Chakrabarty
    JGR Space Physics,123.https://doi.org/10.1002/2017JA024725, 2018


60. Interplanetary and geomagnetic consequences of interacting CMEs of June 13-14, 2012
    N. Srivastava, W. Mishra, and D. Chakrabarty
    Solar Phys., (2018)293:5, https://doi.org/10.1007/s11207-017-1227-8


61. Probing the heliosphere using in-situ payloads on-board Aditya-L1
    P. Janardhan P., S. Vadawale, B. Bapat, K. P. Subramanian, D. Chakrabarty , P. Kumar, A. Sarkar,
    N. Srivastava, R. S. Thampi, V. K. Yadav, M. B. Dhanya, G. G. Nampoothiri, J. K. Abhishek, A. Bhardwaj and K. Subhalakshmi
    Curr. Sci., 113, 4, 25 August 2017


62. Salient features of the dayside low latitude ionospheric response to the main phase step-I of the 17 March 2015 geomagnetic storm using IGS TEC maps
    M. S. Bagiya, A. S. Sunil, D. Chakrabarty, S. Sunda
    Adv. Space. Res., 60 (2017) 1827-1837


63. Solar wind flow angle and geo-effectiveness of corotating interaction regions: First results
    D. Rout, D. Chakrabarty, P. Janardhan, R. Sekar, V. Manaiaya, K. Pandey
    Geophys. Res. Lett.,44, doi:10.1002/2017GL073038


64. Contribution of Storm-Time Substorms to the Prompt Electric Field Disturbances in the Equatorial Ionosphere
    D. Hui, D. Chakarabarty, R. Sekar, G. D. Reeves, A. Yoshikawa, and K. Shiokawa
    JGR Space Physics,122, doi:10.1002/2016JA023754, 2017


65. Comparison of quiet time vertical plasma drifts with global empirical models over the Indian sector : Some insights
    K. Pandey, R. Sekar, S. P. Gupta, D. Chakrabarty, B. G. Anandarao
    J. Atmos. Sol-Terr. Phys.,157-158 (2017)42-54


66. Role of IMF By in the Prompt Electric Field Disturbances over Equatorial Ionosphere During a Space Weather Event
    D. Chakrabarty, D. Hui, D. Rout, R. Sekar, A. Bhattacharyya, G. D. Reeves, and J. M. Ruohoniemi
    JGR Space Physics, 122, doi:10.1002/2016JA022781, 2017


67. An integrated software platform for GPS/GNSS ionospheric data analysis
    A. A. Manke, and D. Chakrabarty
    Int. J. Sci. Eng. Tech., Volume 4 Issue 5: 2016, pp. 796-804


68. Conjugate hemisphere ionospheric response to the St. Patrick's Day storms of 2013 and 2015 in the 100° E longitude sector
    B.R.Kalita, R. Hazarika, G.Kakoti, P.K. Bhuyan, D.Chakrabarty, G.K. Seemala, K.Wang, S. Sharma, T. Yokoyama, P. Supnithi, T. Komolmis, C.Y. Yatini, and M. L. Huy
    JGR Space Physics, 121, doi:10.1002/2016JA023119, 2016


69. Direct observational evidence for Disturbance Dynamo over the daytime low latitude ionosphere: A case study based on the June 28, 2013 Space Weather Event
    S. V. Thampi, P. R. Shreedevi , R. K. Choudhary , T. K. Pant , D. Chakrabarty , S. Sunda , S. Mukherjee , and A. Bhardwaj
    JGR Space Physics, 121, doi:10.1002/2016JA023037, 2016


70. Estimation of nighttime dip-equatorial E-region current density using measurements and models
    K. Pandey, R. Sekar, B. G. Anandarao, S. P. Gupta, and D. Chakrabarty
    J. Atmos. Sol-Terr. Phys., 146 (2016), 160-170


71. An evidence for prompt penetration electric field driven by changes in the solar wind density under northward IMF Bz condition
    D. Rout, D. Chakrabarty, R. Sekar, G. D. Reeves, J. M. Ruohoniemi, Tarun K. Pant, B. Veenadhari, and K. Shiokawa
    JGR Space Physics,121, doi:10.1002/2016JA022475, 2016


72. The Prolonged Southward IMF-Bz Event of May 02-04, 1998: Solar, Interplanetary Causes and Geomagnetic Consequences
    S. K. Bisoi, D. Chakrabarty, P. Janardhan,R. G. Rastogi and A. Yoshikawa, K. Fujiki, M. Tokumaru, and Y. Yan
    JGR Space Physics,121, doi:10.1002/2015JA022185, 2016


73. On the latitudinal changes in ionospheric electrodynamics and composition based on observations over the 76-77E meridian from both hemispheres during a geomagnetic storm
    P. R. Shreedevi, S. V. Thampi, D. Chakrabarty, R. K. Choudhary, T. K. Pant, A. Bhardwaj, S. Mukherjee
    JGR Space Physics, 121, doi:10.1002/2015JA021841, 2016


74. Three different types of electric field disturbances affecting equatorial ionosphere during a long duration prompt penetration event
    D. Chakrabarty, Diptiranjan Rout, R. Sekar, R. Narayanan, G. D. Reeves, Tarun K. Pant, B. Veenadhari, and K. Shiokawa
    JGR Space Physics, 120, doi:10.1002/2014JA020759, 2015


75. A case study on occurrence of an unusual structure in the sodium layer over India
    S. Sarkhel, J. D. Mathews, S. Raizada, R Sekar, D. Chakrabarty, A. Guharay, R. B. Kerr, G. Ramkumar, S. Sridharan, Q. Wu, and M. G. Mlynczak
    Earth Planet & Space, (2015) 67:19, DOI 10.1186/s40623-015-0183-5

Erratum: Earth, Planets and Space (2015) 67:145 DOI 10.1186/s40623-015-0276-1


76. An iterative method to estimate absolute TEC using radio beacon based differential phase measurements: applicability to regions of large latitudinal gradients in plasma density
    S. V. Thampi, M. S. Bagiya, D. Chakrabarty, Y. B. Acharya, and M. Yamamoto
    Radio Sci., 49, doi:10.1002/2014RS005372, 2014


77. On the altitude of initiation of gradient drift waves at different longitude sectors in the vicinity of the dip equator
    R. Sekar, S. P. Gupta, and D. Chakrabarty
    J. Atmos. Sol-Terr. Phys., 121 (2014) 59-62


78. Evolution and Consequences of Interacting CMEs of 2012 November 9-10 using STEREO/SECCHI and In Situ Observations
    W. Mishra, N. Srivastava, and D. Chakrabarty
    Solar Phys., DOI 10.1007/s11207-014-0625-4, 2014


79. Effects of prolonged southward IMF Bz on low latitude ionospheric electron density
    M. S. Bagiya, R. Hazarika, F. I. Laskar, S. Sunda, S. Gurubaran, D. Chakrabarty, P. K. Bhuyan, R. Sridharan
    JGR Space Physics, 119, doi:10.1002/2014JA020156, 2014


80. Characteristics of E-region background ionosphere and plasma waves measured over the dip equator during total solar eclipse campaign
    R. Sekar, S. P. Gupta, and D. Chakrabarty
    J. Atmos. Sol-Terr. Phys., 114 (2014), 58-65


81. On the pre-midnight ascent of F-layer in the June solstice during the deep solar minimum in 2008 over the Indian sector
    D. Chakrabarty, B. G. Fejer, S. Gurubaran, Tarun K. Pant, M. A. Abdu and R. Sekar
    J. Atmos. Sol-Terr. Phys., 121 (2014) 177-187


82. Signatures of moderate (M-class) and low (C, B class) intensity solar flares on the equatorial electrojet current: case studies
    D. Chakrabarty, M. S. Bagiya, Smitha V. Thampi, B. M. Pathan, and R. Sekar
    J. Atmos. Sol-Terr. Phys., 105-106, 170-180, 2013.


83. Interplanetary and Geomagnetic consequences of January 05, 2005 CMEs associated with solar eruptive filaments
    R. Sharma, N. Srivastava, D. Chakrabarty, C. Mostl and Q. Hu
    JGR Space Physics, 118, doi:10.1002/jgra.50362, 2013.


84. Changes in quasi-periodic variations of solar photospheric fields: precursor to the deep solar minimum in the cycle 23?
    S. K. Bisoi, P. Janardhan, D. Chakrabarty, S. Ananthakrishnan, and A. Divekar
    Solar Phys., 289:41-61, DOI 10.1007/s11207-013-0335-3, 2014.


85. Investigation of meteor characteristics over Gadanki using VHF radar observations
    A. Guharay, K. Chenna Reddy, D. Chakrabarty, and G. Yellaiah
    Curr. Sci., 104, 10, 25 May, 1425-1430, 2013.


86. Absence of streaming plasma waves around noontime over Thumba in recent times: Is it related to the drift of the dip equator?
    R. Sekar, S. P. Gupta, Y. B. Acharya, D. Chakrabarty, D. Pallamraju, B. M. Pathan, D. Tiwari, and R. K. Choudhary
    J. Atmos. Sol-Terr. Phys., 103, 815, 2013


87. Investigation on Mesospheric Gravity Waves over Indian Low Latitude Stations using Sodium Airglow Observations and A Few Case Studies Based on Thermal and Wind Structures
    S. Sarkhel, R. Sekar, D. Chakrabarty and A. Guharay
    J. Atmos. Sol-Terr. Phys., 86, 41-50, 2012


88. Extreme changes in the equatorial electrojet under the influence of interplanetary electric field and the associated modification in the low-latitude F-region plasma distribution
    K. G. Simi, S. V. Thampi, D. Chakrabarty, B. M. Pathan, S. R. P. Nayar and T. K. Pant
    JGR Space Physics, 117, A03331, doi:10.1029/2011JA017328, 2012.


89. Solar EUV flux (0.1-50 nm), F10.7 cm flux, sunspot number and the total electron content in the crest region of equatorial ionization anomaly during the deep minimum between solar cycle 23 and 24
    D. Chakrabarty, M. S. Bagiya, S. V. Thampi and K. N. Iyer
    Ind. J. Radio & Space Phys., Vol 41, April 2012, pp 110-120, 2012.


90. Optical signature of shear in the zonal plasma flow along with a tilted structure associated with equatorial spread F during a space weather event
    R. Sekar, D. Chakrabarty, and D. Pallamraju
    J. Atmos. Sol-Terr. Phys., 57-63, 2012.


91. A review of the recent advances in the investigation of equatorial spread F and space weather effects over Indian sector using optical and other techniques
    R. Sekar and D. Chakrabarty
    IAGA Special Sopron Book Series, "Aeronomy of the Earth's Atmosphere and Ionosphere", Volume 2, Part 3, 251-268, DOI: 10.1007/978-94-007-0326-1_18, 2011.


92. Evidence for OI 630.0nm dayglow variations over low latitudes during onset of a substorm
    D. Chakrabarty, R. Sekar, J. H. Sastri, B. M. Pathan, G. D. Reeves, K. Yumoto and T. Kikuchi
    J. Geophys. Res., 115, A10316, doi:10.1029/2010JA015643, 2010.


93. A case study on the possible altitude-dependent effects of collisions on sodium airglow emission
    S. Sarkhel, R. Sekar, D. Chakrabarty and S. Sridharan
    JGR Space Physics, 115, A10306, doi:10.1029/2010JA015251, 2010.


94. Simultaneous sodium airglow and lidar observations from India: a case study
    S. Sarkhel, R. Sekar, D. Chakrabarty, R. Narayanan, and S. Sridharan
    JGR Space Physics, 114, A10317, doi:10.1029/2009JA014379, 2009.


95. Distinctive effects of interplanetary electric field and substorm on nighttime equatorial F layer: a case study
    D. Chakrabarty, R. Sekar, J. H. Sastri and S. Ravindran
    Geophys. Res. Lett., 35, L19108, doi:10.1029/2008GL035415, 2008.


96. Equatorial spread-F structures and associated airglow intensity variations observed over Gadanki
    R. Sekar, D. Chakrabarty, R. Narayanan and A. K. Patra
    Ann. Geophys., 26, 3863-3873, 2008.


97. Role of overshielding electric field on the development of pre-midnight plume event: simulation results
    R. Sekar and D. Chakrabarty
    J. Atmos. Sol-Terr. Phys., 70, 2212-2221, 2008.


98. Equatorial spread-F research in India: a brief review
    R. Sekar and D. Chakrabarty
    Ind. J. Radio & Space Phys., 37, 7-27, February 2008.


99. Identifications of active fossil bubbles based on coordinated VHF radar and airglow measurements
    R. Sekar, D. Chakrabarty, S. Sarkhel, A. K. Patra, C. V. Devasia and M. C. Kelley
    Ann. Geophys., 25, 2099-2102, 2007.


100. Day to day correlation of equatorial electrojet at two stations separated by 2000 km
     R.G. Rastogi, H. Chandra, D Chakrabarty, K. Kitamura and K. Yumoto
     Ann. Geophys., 25, 875-880, 2007.


101. Impact of space weather events on the coupling of ionosphere and thermosphere over low latitudes
     R. Sekar and D. Chakrabarty
     Asian J. of Phys., 16, 247-272, 2007.


102. Effects of interplanetary electric field on the development of an equatorial spread-F event
     D. Chakrabarty, R. Sekar, R. Narayanan, A. K. Patra and C. V. Devasia
     JGR Space Physics, 111, A12316, doi:10.1029/2006JA011884, 2006.


103. Evidence for the interplanetary electric field effect on the OI 630.0 nm airglow over low latitude
     D. Chakrabarty, R. Sekar, R. Narayanan, C. V. Devasia and B. M. Pathan
     JGR Space Physics, 110, A11301, doi:10.1029/2005JA011221,2005.


104. Thermospheric gravity wave modes over low and equatorial latitudes during daytime
     D. Chakrabarty, R. Sekar, R. Narayanan, T. K. Pant and K. Niranjan
     JGR Space Physics, 109, A12309, doi:10.1029/2003JA010169, 2004.


105. Characterization of VHF radar observations associated with equatorial Spread F by narrow-band optical measurements
     R. Sekar, D. Chakrabarty, R. Narayanan, S. Sripathi, A. K. Patra, and K. S. V. Subbarao
     Ann. Geophys., 22, 3129-3136, 2004.


106. Significant upper thermospheric contribution to the O(1S) 557.7 nm dayglow emission: First ground based evidence
     A. Taori, R. Sridharan, D. Chakrabarty, N.K. Modi and R. Narayanan
     J. Atmos. Sol-Terr. Phys., 65,121-128, 2003.


107. Characterizations of the Diurnal Shapes of OI 630.0 nm Day Glow Intensity Variations : Inferences
     D. Chakrabarty, R. Sekar, H. Chandra, R. Narayanan, B. M. Pathan and K.S.V. Subbarao
     Ann. Geophys., 20, 1851-1856, 2002.


108. Thermospheric temperature and magnetic field measurements from Mt. Abu during a geomagnetically disturbed period - a case study
     D. Chakrabarty, T. K. Pant, R. Sekar, A. Taori, N.K. Modi and R. Narayanan
     Curr. Sci., 83,2, 25 July, 167-170, 2002.


109. Co-ordinated thermospheric day-night airglow and ionospheric measurements from low latitudes - First results
     A. Taori, R. Sridharan, D. Chakrabarty, R. Narayanan and P.V.S. Ramarao
     Geophys. Res. Lett., 28, 7, 1387-1390, 2001(2000GL012406).


110. Effects of 6 January 1997 space weather related processes in the low latitude thermosphere-ionosphere system
     R. Sridharan, A. Taori, D. Chakrabarty, H. Chandra, S. Sharma, R. Narayanan and N.K. Modi
     J. Atmos. Sol-Terr. Phys., 61, 1001-1005, 1999.


111. Imprint of equatorial electrodynamical processes in the OI 630.0 nm dayglow
     R. Sridharan, D. Pallam Raju, V.V. Somayajulu, A. Taori, D.Chakrabarty and R. Raghavarao
     J. Atmos. Sol-Terr. Phys., 61, 1143-1155, 1999.


112. Multiwavelength daytime photometer - a new tool for the investigation of atmospheric processes
     R. Sridharan, N.K.Modi, D. Pallam Raju, R. Narayanan, Tarun K. Pant, Alok Taori and D. Chakrabarty
     Meas. Sci. Tech. (UK), 9, 585-591, 1998.

Review articles/Chapter of a Book etc.

• Recent results and outstanding questions on the response of the electrodynamics of the low latitude ionosphere to solar wind and magnetospheric disturbances
  B. G. Fejer, Luis A. Navarro and Dibyendu Chakrabarty
  Accepted, Front. Astron. Space Sci., doi: 10.3389/fspas.2024.1471140, 2024


• A review on the upper atmospheric sodium observations from India: Insights
  S. Sarkhel, S. Mondal, R. Sekar,D. Chakrabarty,S. Sridharan
  Adv. Space Res., 63 (2019), 3568-3585, https://doi.org/10.1016/j.asr.2019.02.019


• A review of the recent advances in the investigation of equatorial spread F and space weather effects over Indian sector using optical and other techniques
  R. Sekar and D. Chakrabarty
  IAGA Special Sopron Book Series, "Aeronomy of the Earth's Atmosphere and Ionosphere", Volume 2, Part 3, 251-268, DOI: 10.1007/978-94-007-0326-1_18, 2011.


• Equatorial spread-F research in India: a brief review
  R. Sekar and D. Chakrabarty
  Ind. J. Radio & Space Phys., 37, 7-27, February 2008.


• Impact of space weather events on the coupling of ionosphere and thermosphere over low latitudes
  R. Sekar and D. Chakrabarty
  Asian J. of Phys., 16, 247-272, 2007.

Publications in Proceedings

1. Comparison of Solar Wind flux and bulk parameters obtained from Aditya L1-ASPEX with Wind-3DPPESA-L and ACE-EPAM-LEMS120
   Jacob Sebastian, Abhishek Kumar, Dibyendu Chakrabarty, Prashant Kumar, Shiv Kumar Goyal, Santosh Vadawale, M. Shanmugam, M. Hasan, Aveek Sarkar, Bijoy Dalal, Aakash Gupta, Shivam Parashar, Bhas Bapat, Manan S. Shah, Pranav R. Adhyaru, Arpit R. Patel, Hitesh Kumar Adalja, Neeraj Kumar Tiwari, Aaditya Sarda, Piyush Sharma, Tinkal Ladiya, Sushil Kumar, Nishant Singh, Deepak Kumar Painkra, Abhishek J. Verma, Swaroop Banerjee, K. P. Subramanian, M. B. Dadhania, P. Janardhan, and Anil Bhardwaj
   GSICS Quarterly Newsletter Winter 2025 issue, Vol. 18 No 4, 2025, doi:10.25923/gmzc-9a28


2. Prolonged and Extremely Non-radial Solar Wind Flows
   Susanta K. Bisoi, Diptiranjan Rout, P. Janardhan, K. Fujiki, Dibyendu Chakrabarty and Karan Sahu
   Proceedings of the ''Belgo-Indian Network for Astronomy and Astrophysics (BINA)'' workshop, ARIES, Nainital, 22-24 March, https://doi.org/10.48550/arXiv.2401.10863, 2023


3. The Aditya-L1 mission of ISRO
   Durgesh Tripathi, D. Chakrabarty, A. Nandi, B. Raghvendra Prasad, A. N. Ramaprakash, Nigar Shaji, K. Sankarasubramanian, R. Satheesh Thampi, V. K. Yadav
   "The Era of Multi-Messenger Solar Physics'', Proceedings IAU Symposium No. 372, 2023, G. Cauzzi & A. Tritschler, eds., doi:10.1017/S1743921323001230, 2023,


4. Multi-directional measurements of high energy particles from the Sun-Earth L1 point with STEPS
   S. K. Goyal, M. Shanmugam, A. R. Patel, T. Ladiya, Neeraj K. Tiwari, S. B. Banerjee, S. V. Vadawale, P. Janardhan, D. Chakrabarty, A. R. Srinivas, P. Shukla, P. Kumar, K. P. Subramanian, B. Bapat and P. R. Adhyaru
   Proceedings of SPIE 9905, ''Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray", 99054N (July 11, 2016); http://dx.doi.org/10.1117/12.2232259


5. Role of filament plasma remnants in ICMEs leading to geomagnetic storms
   R. Sharma, N. Srivastava and D. Chakrabarty
   Proceedings IAU Symposium No. 300, 2013 (''Nature of Prominences and their role in Space Weather"; B. Schmieder, J.-M. Malherbe & S. T. Wu, eds.); doi:10.1017/S1743921313011708


6. Evolution of the 5 January 2005 CMEs associated with eruptive filaments in inner heliosphere
   R. Sharma, N. Srivastava, B. V. Jackson, D. Chakrabarty, N. Luckett, H. Yu, Q. Hu, and C. Möstl
   Proceedings IAU Symposium No. 300, 2013 (''Nature of Prominences and their role in Space Weather"; B. Schmieder, J.-M. Malherbe & S. T. Wu, eds.); doi:10.1017/S1743921313011691


7. Investigations on the effects of annular solar eclipse in the equatorial ionosphere
   R. Sekar, Y. B. Acharya, D. Chakrabarty, D. Pallamraju, S. P. Gupta, and B. M. Pathan
   Proceedings of the ''National Workshop on the Results on Solar Eclipse (NaWRoSE)", SPL, VSSC, January 27-28, 2011.


8. Space Plasma Diagnostic Techniques: An ionospheric perspective
   D. Chakrabarty
   Proceedings of the ''SERC-DST school on Plasma Diagnostics", Institute of Plasma Research, 20-31 July, 2009


9. Space weather
   Dibyendu Chakrabarty
   PRL News, Volume 24 Issue March 2009


10. Effects of interplanetary electric field on low latitude ionosphere
    R. Sekar and D. Chakrabarty
    Proceedings of the ''DST sponsored workshop on Electrodynamical Coupling of Atmospheric Regions", Indian Institute of Geomagnetism, 2008


11. Signatures of Space weather events in OI 630.0 nm airglow
    D. Chakrabarty, R. Sekar, H. Chandra and R. Narayanan
    Proceedings of the silver Jubilee meeting (2002) of Udaipur Solar Observatory (''Probing the sun with high resolution"), Rajasthan, India, 2003, P-233

Links-2: Space weather resources and journals