The theory of general relativity kills off gravity as some kind of natural force. CORRALLING A DISTANT PLANET WITH EXTREME RESONANT KUIPER BELT OBJECTS.What is Einstein’s theory of general relativity? "Mean Motion Resonances at High Eccentricities: The 2:1 and the 3:2 Interior Resonances". "The Curiously Warped Mean Plane of the Kuiper Belt".
"ALMA 1.3 mm Map of the HD 95086 System". Su, K., MacGregor, M., Booth, M., Wilner, D., Flaherty, K., Hughes, A., Phillips, N., Malhotra, R., Hales, A., Morrison, S., Ertel, S., Matthews, B., Dent, W., & Casassus, S."Eccentricity distribution in the main asteroid belt". "Prospects for unseen planets beyond Neptune". "Simplified Derivation of the Collision Probability of Two Objects in Independent Keplerian Orbits". On the Detectability of Planet X with LSST. Trilling, D., Bellm, E., & Malhotra, R."Ceres and the terrestrial planets impact cratering record". Neptune's 5:2 Resonance in the Kuiper Belt. Malhotra, R., Lan, L., Volk, K., & Wang, X.Publisher Correction: Craters, boulders and regolith of (101955) Bennu indicative of an old and dynamic surface. , Barnouin, O., Bierhaus, E., Connolly, H., Molaro, J., McCoy, T., Delbo', M., Hartzell, C., Pajola, M., Schwartz, S., Trang, D., Asphaug, E., Becker, K., Beddingfield, C., Bennett, C., Bottke, W., Burke, K.,, Clark, B., et al. Celestial Mechanics and Dynamical Astronomy, 132(6-7), 35. Lunar close encounters compete with the circumterrestrial Lidov-Kozai effect. Amato, D., Malhotra, R., Sidorenko, V., & Rosengren, A.Research Notes of the American Astronomical Society, 5(10), 235. Communications Earth and Environment, 2(1), 231. Lunar-like silicate material forms the Earth quasi-satellite (469219) 2016 HO$_3$ Kamoʻoalewa. N., Reddy, V., Malhotra, R., Thirouin, A., Kuhn, O., Conrad, A., Rothberg, B., Sanchez, J. Assessing and minimizing collisions in satellite mega-constellations. VizieR Online Data Catalog, J/ApJ/895/126. VizieR Online Data Catalog: ALMA observation of 152 1-11Myr aged stars (Hendler+, 2020). Hendler, N., Pascucci, I., Pinilla, P., Tazzari, M., Carpenter, J., Malhotra, R., & Testi, L.An Integrative Analysis of the HD 219134 Planetary System and the Inner Solar System: Extending DYNAMITE with Enhanced Orbital Dynamical Stability Criteria. Dietrich, J., Apai, D., & Malhotra, R.Refining the Transit-timing and Photometric Analysis of TRAPPIST-1: Masses, Radii, Densities, Dynamics, and Ephemerides. L., Turbet, M., Ducrot, E., Delrez, L., Gillon, M., Demory, B., Burdanov, A., Barkaoui, K., Benkhaldoun, Z., Bolmont, E., Burgasser, A., Carey, S., Wit, J., Fabrycky, D., Foreman-Mackey, D., Haldemann, J., Hernandez, D. Scholarly Contributions Journals/Publications Indian Institute of Technology, Delhi, India, Spring 2006.University of Arizona - College of Science, Spring 2010.National Academy of Sciences, Spring 2015.American Academy of Arts and Sciences, Spring 2015.Fellow of American Academy of Arts and Sciences.College of Science, The University of Arizona, Spring 2016.Louise Foucar Marshall Science Research Professor.Board of Regents, The University of Arizona, Spring 2017.She is an elected member of the National Academy of Sciences and of the American Academy of Arts and Sciences, and has been the recipient of honors and awards from the American Astronomical Society, the International Astronomical Union, The University of Arizona, and the IIT-Delhi. She has revolutionized our understanding of the history of the solar system by using the orbital resonance between Pluto and Neptune to infer large-scale orbital migration of the giant planets and to predict the existence of the "Plutinos" and other small planets in resonance with Neptune. Her work in planetary dynamics has spanned a wide variety of topics, including extra-solar planets and debris disks around nearby stars, the formation and evolution of the Kuiper belt and the asteroid belt, the orbital resonances amongst the moons of the giant planets, and the meteoritic bombardment history of the planets. She did post-doctoral research at Cornell and at Caltech, and worked as a staff scientist at the Lunar and Planetary Institute in Houston. in Physics from Cornell University in 1988. in Physics from the Indian Institute of Technology in Delhi in 1983, and her Ph.D. She was born in New Delhi and grew up in Hyderabad, India. Renu Malhotra is Louise Foucar Marshall Science Research Professor and Regents' Professor of Planetary Sciences at The University of Arizona in Tucson, where she is also serving as Chair of the Theoretical Astrophysics Program.