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<div align="center"><font color="#0000ff" size="6"><b>SPECIAL SEMINAR<br>
Sara Seager<br>
</b></font><font color="#0000ff" size="4">Carnegie Institution of
Washington, Department of Terrestrial Magnetism <br><br>
</font> <font color="#0000ff" size="5"><b>Tuesday, April 4, 2006 at
2:00pm<br>
</b></font><font color="#0000ff" size="6">Haller Hall<br><br>
</font><font size="5">"<b>From Hot Jupiters to Hot Earths and
Beyond</b>"<br><br>
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<br>
We have entered a new era in planetary astrophysics with over 170
extrasolar giant planets now known. Physical properties of a subset of
these planetsthe hot transiting giant planetshave been measured,
including mass, radius and atmospheric thermal emission. Even more
intriguing than the hot Jupiters are the seven known hot super-massive
Earths (mass range 7 to 20 Earth masses) which are expected to consist of
a large rocky component but which may also have a large gas envelope.
Beyond the hot super-massive Earths, our own Earth has been studied as an
exoplanet, both in its present state and in its paleoclimates. I
will discuss the interpretation of the hot Jupiter atmosphere data, the
possibilities for observation and interpretation of hot supermassive
Earths, and the scientific highlights and prospects for the future
detection and study of Earth-like extrasolar planets.<br><br>
<br>
<div align="center"><font color="#8b0000" size="6"><b><span style="font-weight: bold;">Harvard </span>Department of Earth
and Planetary Sciences <br>
</b></font><font color="#800000" size="6">Haller Hall<br>
24 Oxford Street<br>
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