diff --git a/_pages/cv.md b/_pages/cv.md index 663c0eaf9b605..7a9ac329d037d 100644 --- a/_pages/cv.md +++ b/_pages/cv.md @@ -13,6 +13,7 @@ Education ====== * B.Tech. in Mechanical Engineering, Sardar Vallabhbhai National Institute of Technology, Surat, 2021 * M.S. in Climate and Space Sciences and Engineering, University of Michigan, 2023 +* Certificate in Innovation and Entrepreneurship, University of Michigan, 2024 * Ph.D in Climate and Space Sciences and Engineering, University of Michigan, 2026 (expected) Work experience @@ -20,24 +21,24 @@ Work experience * Graduate Student Research Assistant @ [PSL](https://psl.engin.umich.edu/), University of Michigan (Fall 2021 - Present) * Developing a self-consistent chemical kinetics package (C3M) for simulating atmospheric photochemistry in Venus * Modeling microwave radiative transfer in Jupiter and data analysis of Juno Microwave Radiometer observations of Jupiter's deep atmosphere - Advisors: Prof. Sushil K. Atreya and Prof. Cheng Li + | Advisors: Prof. Sushil K. Atreya and Prof. Cheng Li * Planetary Science Graduate Intern @ NASA Jet Propulsion Laboratory (Summer 2023) * Investigating energy distribution and electron impact ionization process during high-energy precipitation events in Jupiter's aurora. * Scientific analysis of Juno Microwave Radiometer observations of Jupiter's northern aurora. * Constraining the plasma electron density in the auroral ionosphere. - Mentor: Dr. Steven M. Levin + | Mentor: Dr. Steven M. Levin * Course Development @ UM-CLASP (Summer 2022 - Winter 2023) * Created course modules on professional development, and computational resources for Ph.D. Professional Seminar course * Assisted in teaching lectures about version control and computation - Supervisor: Prof. Michael W. Liemohn + | Supervisor: Prof. Michael W. Liemohn * Parallel Computing Summer Research Fellow @ XCP-4, Los Alamos National Laboratory (Summer 2022) * Trained on High-Performance Computing resources at LANL * Developed and ported python based Direct Numerical Simulation code to GPU architectures * Testing MPI parallelization of DNS on GPU - Mentors: Dr. Daniel Israel and Dr. Robert Robey + | Mentors: Dr. Daniel Israel and Dr. Robert Robey * Content Writer @ Astropreneurs.space (2019-2020) * Writing articles to tell the story of entrepreneurs in space sector. diff --git a/_pages/portfolio.md b/_pages/portfolio.md index 48941b1e8a017..193aacd5b2054 100644 --- a/_pages/portfolio.md +++ b/_pages/portfolio.md @@ -23,6 +23,7 @@ Probing Dust and Water Vapor in Martian atmosphere [Remote Sensing paper](https://www.mdpi.com/2072-4292/15/18/4574) ![Occultation](../images/OccultationGeometry.png) + Bhattacharya et al. 2023, Remote Sensing Airborne dust plays an active role in determining the thermal structure and chemical composition of the present-day atmosphere of Mars and possibly the planet’s climate evolution over time through radiative–convective and cloud microphysics processes. Thus, accurate measurements of the distribution and variability of dust are required. Observations from the Mars Global Surveyor/Thermal Emission Spectrometer Mars Mars Reconnaissance Orbiter/Mars Climate Sounder and Mars Express/Fourier Transform Spectrometer and the Curiosity Rover have limited capability to measure dust. We show that spacecraft occultation of the Martian atmosphere at far-infrared frequencies between 1 and 10 THz can provide the needed global and temporal data on atmospheric dust by providing co-located measurements of temperature and dust opacity from the top of the atmosphere all the way down to the surface. In addition, spacecraft occultation by a small-satellite constellation could provide global measurements of the development of dust storms.