Professor at Raman Research Institute, India.
Dr. Reetanjali Moharana is an Associate Professor at IIT Jodhpur, specializing in Astronomy and Astrophysics π. Her research focuses on astroparticle physics, high-energy cosmic rays, gamma rays, and neutrinos. She earned her Ph.D. from IIT Bombay in 2014 π and has published 44 research articles, accumulating 199 citations with an h-index of 8 π. Before her current role, she served as an Assistant Professor at IIT Jodhpur (2019-2023). Dr. Moharana is an active researcher contributing to multi-messenger astrophysics, expanding our understanding of the high-energy universe π.
Professional Profile:
Scopus
Suitability for Best Researcher Award β Dr. Reetanjali Moharana
Dr. Reetanjali Moharana is a highly deserving candidate for the Best Researcher Award due to her impactful contributions to astroparticle physics and multi-messenger astrophysics. As an Associate Professor at IIT Jodhpur, she has made significant strides in high-energy cosmic ray, gamma-ray, and neutrino research. With 44 publications, 199 citations, and an h-index of 8, her research has advanced our understanding of the most energetic processes in the universe, making her a key figure in her field.
π Education & Experience
- π Ph.D. in Physics, IIT Bombay, 2014
- π Masterβs & Bachelorβs in Physics, (Institution details unavailable)
- π« Associate Professor, IIT Jodhpur (2023-Present)
- π« Assistant Professor, IIT Jodhpur (2019-2023)
π Professional Development
Dr. Moharana is actively involved in advancing multi-messenger astrophysics, bridging observational data with theoretical insights β¨. She has participated in national and international conferences, collaborating with astrophysicists worldwide π. Her research contributions have enhanced our understanding of cosmic ray origins, gamma-ray bursts, and neutrino astrophysics π‘. She mentors students and researchers, fostering academic growth at IIT Jodhpur π«. Her expertise extends to cutting-edge computational techniques used for analyzing high-energy cosmic phenomena, making significant contributions to astrophysical modeling and simulation π₯οΈ.
π Research Focus
Dr. Moharanaβs research revolves around astroparticle physics, particularly high-energy cosmic rays, gamma rays, and neutrinos π. She investigates their sources, interactions, and propagation through space to understand the universe’s most energetic processes β‘. Her work contributes to identifying astrophysical accelerators, such as supernova remnants and active galactic nuclei π. She also explores multi-messenger signals, combining data from different cosmic messengers (photons, neutrinos, and cosmic rays) to solve key astrophysical mysteries π¬. Her research aids in understanding fundamental physics beyond the Standard Model, including dark matter and exotic particle interactions πΈ.
π Awards & Honors
- π
Recognized Researcher with 199 citations and an h-index of 8
- ποΈ Key Contributor to Multi-Messenger Astrophysics Research
- π Invited Speaker at Various National & International Conferences
- π Published 44 Research Articles in Reputed Journals
Publication Top Notes
π Unraveling the Nature of HAWC J1844-034 with Fermi-LAT Data Analysis and Multiwavelength Modeling β Astrophysical Journal π
2025 π
π Multiple Emission Regions in Jets of the Low-Luminosity Active Galactic Nucleus in NGC 4278 β Astrophysical Journal π
2024 π Cited by: 1
π Unraveling the Emission Mechanism of the HBL Source Mrk 180 with Multi-Wavelength Data β Conference Paper π
[No source info] π
π Emission from the Jets of Low-Luminosity Active Galactic Nuclei β Conference Paper π
[No source info] π Cited by: 1
π HESS J1809-193: Gamma-Ray Emission by Cosmic Rays from a Past Explosion β Astrophysical Journal π
2024 π Cited by: 3
π Dissecting the Broad-Band Emission from Ξ³-Ray Blazar PKS 0735+178 in Search of Neutrinos β Monthly Notices of the Royal Astronomical Society π
2024 π Cited by: 5
π X-Ray Flares in the Long-Term Light Curve of Low-Luminosity Active Galactic Nucleus M81 β Astrophysical Journal π
2023 π Cited by: 3
π Exploring the Emission Mechanisms of Mrk 180 with Long-Term X-Ray and Ξ³-Ray Data β Astrophysical Journal π
2023 π Cited by: 1