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<span style="caret-color: rgb(0, 0, 0); color: rgb(0, 0, 0);" class="">Hello NE planetary community,</span>
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<div class="" style="caret-color: rgb(0, 0, 0); color: rgb(0, 0, 0);">Please join us next Tuesday, <b class="">May the 4th at 12:30 PM </b>on Zoom (link below) to hear
<b class="">Dr. Lynnae Quick</b> (NASA/GSFC) speak about “<b class=""><i class="">Cryovolcanism and Habitable Niches on Ocean Worlds Near and Far</i></b>.” </div>
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<div class="">Abstract: As it is most commonly known, volcanism involves the eruption of hot, molten rock and ash on Earth and other terrestrial planets. However, several bodies in our outer solar system exhibit icy volcanism or, cryovolcanism, during which
briny aqueous solutions and crystalline ice erupt instead. The Voyager 2 and Cassini spacecraft imaged geyser-like eruptions in the south polar regions of Neptune’s moon Triton and Saturn’s moon Enceladus, respectively. Imagery from the Galileo spacecraft
and recent telescopic detections of putative geyser-like plumes on Jupiter’s moon Europa suggest that cryovolcanic processes may be currently occurring on the smallest Galilean satellite. Ground-based studies and imagery from NASA’s New Horizons and Dawn spacecraft
suggest that cryovolcanism may have also occurred on large Kuiper Belt Objects such as Pluto and Charon, and possibly on dwarf planet Ceres. Similar to the icy moons in our outer solar system, cryovolcanic eruptions on cold, water-rich exoplanets (e.g., Trappist-1h) could
indicate the presence of internal liquid reservoirs, possibly subsurface oceans. In this talk I will review the current state of knowledge of cryovolcanism in our solar system including cryomagma migration and cryovolcanic eruptions on Jupiter’s moon Europa.
I will also discuss the thermal and orbital conditions that could facilitate cryovolcanism on extrasolar planets, and prospects for utilizing next-generation space telescopes to detect cryovolcanic eruptions on distant, water-rich worlds. Lastly, I will review
the goals of NASA’s Europa Clipper Mission, which will make new discoveries at our solar system’s own active ocean world.</div>
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<div class="" style="caret-color: rgb(0, 0, 0); color: rgb(0, 0, 0);">Zoom information:</div>
<div class="">Link: <a href="https://mit.zoom.us/j/98903536097" class="">https://mit.zoom.us/j/98903536097</a> (please note the new link)<br class="">
Password: 544412</div>
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This is the last talk of the semester. If you have a suggestion for a speaker next Fall, please fill up this form:<br class="">
<a href="https://docs.google.com/forms/u/1/d/1Uuo2IhfhF-Mrve4EXLFFv8y4h8NFddPhb8NVr-tyOIc/edit?usp=drive_web" class="">https://docs.google.com/forms/u/1/d/1Uuo2IhfhF-Mrve4EXLFFv8y4h8NFddPhb8NVr-tyOIc/edit?usp=drive_web</a><br class="">
It is always very helpful to have suggestions and feedbacks.<br class="">
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See you all on Tuesday,<br class="">
Jason & the PLS team</div>
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