NExSS Workshop Without Walls: Impact of Exoplanetary Space Weather On Climate and Habitability
The NASA Nexus for Exoplanet System Science (NExSS) presents Workshop Without Walls: Impact of Exoplanetary Space Weather On Climate and Habitability.
Dates: November 29th – December 2nd, 2016
Location: New Orleans, LA, and other virtual locations.
Organizers: Vladimir Airapetian (NASAGSFC), William Danchi (NASAGSFC)
To RSVP to attend the event remotely, go to https://nexss.info/index.php?option=com_content&view=article&id=88
The landscape of exoplanetary science has changed considerably with the great success of the Kepler mission, which has discovered thousands of transit candidates and hundreds of confirmed exoplanets around K-M dwarf stars and a few planets within their Habitable Zones (HZs). How does the classic definition of the HZ relate to the conditions required for development and support of life as we know it within “biogenic zones”? Kepler also revealed thousands of superflares on hundreds of solar-type stars, which may suggest that host stars have profound effects on the physical and chemical evolution of exoplanetary atmospheres. What do we know about the impact of space weather on our own planet? How can we use lessons learned from the largest solar space weather events to understand how exoplanets are affected by their host stars? Stellar forcing in the form of XUV fluxes, winds, coronal mass ejections (CMEs) and associated energetic particle events (EPE) can have a dramatic effect on the histories of atmospheric loss, atmospheric chemistry, and climates that shape exoplanetary habitability. Thus, there is a need to perform sophisticated observations and develop theoretical models to characterize the forms of magnetic activity, their effects on exoplanetary space weather, and its effects on atmospheric dynamics, chemistry and habitability conditions.
The assessment of the impacts of host stars on the climate and habitability of terrestrial (exo)planets may significantly modify the current definition of the habitable zone and provide new avenues for searching for signatures of life.
The major goal of the workshop is to promote collaboration between NExSS team members and the broader U.S. and international communities, to discuss recent progress in interdisciplinary studies, and to develop a community roadmap that crosess the boundaries of space weather from the Sun to cool stars and investigates its impact on (exo)planetary climates. This will be achieved by bringing together scientists involved in related activities in the broader astrophysics, heliophysics and planetary science communities. Their perspectives of interrelations among space weather, climate and habitability conditions will be crucial in defining the boundaries of habitability of exoplanets around F to M dwarfs.
The workshop will be open to community virtual participation via Adobe Connect.
For a full event schedule and details on how to connect, visit https://nexss.info/index.php?option=com_content&view=article&id=86&Itemid=190#remote