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Wednesday, December 18, 2024

NMSU researchers join France, Japan to develop new Jupiter wind map

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Jay Gogue, Interim President of the NMSU System | New Mexico State University

Jay Gogue, Interim President of the NMSU System | New Mexico State University

New Mexico State University researchers have collaborated with teams from France and Japan to develop a groundbreaking new map of the wind patterns on Jupiter. The study, published in the "Planetary Science Journal," marks a significant advancement in understanding the atmospheric dynamics of the gas giant planet.

The research team, led by Observatoire de la Côte d'Azur (OCA, France), utilized Doppler spectroscopy to create the first comprehensive map of Jupiter's atmospheric circulation. Jason Jackiewicz, NMSU astronomy professor and department head, explained that while traditional methods involved cloud-tracking, the new technique directly measures atmospheric motion through the Doppler effect.

Stephen Markham, NMSU post-doctoral fellow, highlighted the significance of Doppler imaging technology in studying giant planets and expressed optimism about its application in future spacecraft missions. The team's instrument, JOVIAL (Jupiter: Oscillations from Velocity Imaging At several Longitudes), played a crucial role in capturing precise atmospheric velocities.

François-Xavier Schmider, director of research at OCA and JOVIAL principal investigator, emphasized the importance of placing similar instruments in space to minimize atmospheric turbulence's impact on measurements. The team's efforts resulted in a comprehensive three-dimensional atmospheric map of Jupiter, complementing existing data from the Hubble Space Telescope.

Cristo Sanchez, NMSU astronomy graduate student, underscored the value of combining data from the JOVIAL instrument with Hubble's measurements to gain a more complete understanding of Jupiter's wind patterns. The team's work also shed light on vertical velocities, a component not fully captured by the Hubble's two-dimensional measurements.

The Dunn Solar Telescope in Sunspot, New Mexico, played a crucial role in the project, providing an optimal location for observing Jupiter's conditions at night. Jason Jackiewicz highlighted the telescope's unique characteristics that facilitated the research process, emphasizing its importance in conducting observations of Jupiter.

The collaboration between NMSU researchers and international partners has yielded valuable insights into Jupiter's atmospheric dynamics, paving the way for further advancements in planetary science.

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