Frontier Space podcast

Tethered Asteroids for Planetary Defense - Ep 21

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Explore the dynamics and engineering of Tethered Asteroid systems to adjust the orbital trajectory of near-Earth object (NEO) and potentially hazardous asteroids (PHA) with our guest Flaviane Venditti, PhD who is pioneering the tethered asteroid R&D. Topics in this month's Podcast Episode include tether dynamics, engineering, and materials (i.e. carbon nanotubes), alternative orbital deviation methods, tether anchoring, solar sails, and tethered balloon asteroids

Podcast Guest: Flaviane Venditti, PhD, Observatory Scientist, Head of Planetary Radar, The Arecibo Observatory at University of Central Florida

Dr. Venditti started her scientific career as a Bachelor in Physics/Astronomy at the University of Sao Paulo, where she was part of the Polarimetry group working with observations at the National Laboratory for Astrophysics (LNA) in Minas Gerais, Brazil. Besides observations, she was also interested in celestial mechanics and space missions, which led her to pursue a Master's (2009) and Ph.D (2013) degree in Space Engineering at the National Institute for Space Research, Brazil, focused on Astrodynamics. During her Ph.D, she worked with orbital maneuvers around irregularly shaped bodies, developing a method to model the gravitational field of asteroids with low computational effort using Arecibo's planetary radar data.

Flaviane C. F. Venditti, Luis O. Marchi, Arun K. Misra, Diogo M. Sanchez, Antonio F. B. A. Prado. Dynamics of tethered asteroid systems to support planetary defense. The European Physical Journal Special Topics, 2020; 229 (8): 1463 DOI: 10.1140/epjst/e2020-900183-y

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