The Astrophysical Journal Letters

The Astrophysical Journal Letters

Quick search Find article
Quick search
Find article
The Astrophysical Journal Letters Volume 598 Number 2 Create an alert RSS this journal

H. Lammer et al 2003 ApJ 598 L121 doi:10.1086/380815

Atmospheric Loss of Exoplanets Resulting from Stellar X-Ray and Extreme-Ultraviolet Heating

FREE

H. Lammer1, F. Selsis2, I. Ribas3, E. F. Guinan4, S. J. Bauer5 and W. W. Weiss6

Show affiliations

Tag this article Full text PDF (110 KB) View as HTML

Abstract References Cited By

Past studies addressing the thermal atmospheric escape of hydrogen from "hot Jupiters" have been based on the planet's effective temperature, which, as we show here, is not physically relevant for loss processes. In consequence, these studies led to significant underestimations of the atmospheric escape rate (≤103 g s-1) and to the conclusion of long-term atmospheric stability. From more realistic exospheric temperatures, determined from X-ray and extreme-ultraviolet (XUV) irradiation and thermal conduction in the thermosphere, we find that energy-limited escape and atmospheric expansion arise, leading to much higher estimations for the loss rates (≈1012 g s-1). These fluxes are in good agreement with recent determinations for HD 209458b based on observations of its extended exosphere. We also show that for young solar-type stars, which emit stronger XUV fluxes, the inferred loss rates are significantly higher. Thus, hydrogen-rich giant exoplanets under such strong XUV irradiances may evaporate down to their core sizes or shrink to levels at which heavier atmospheric constituents may prevent hydrodynamic escape. These results could explain the apparent paucity of exoplanets so far detected at orbital distances less than 0.04 AU.


Subject headings

astrobiology; conduction; hydrodynamics; instabilities; planetary systems


Dates

Issue 2 (2003 December 1)

Received 2003 July 11, accepted for publication 2003 October 17

Published 2003 November 13



Your last 10 viewed
  1. Atmospheric Loss of Exoplanets Resulting from Stellar X-Ray and Extreme-Ultraviolet Heating

    H. Lammer et al 2003 ApJ 598 L121

  2. Growing network with j-redirection

    R. Lambiotte and M. Ausloos 2007 EPL 77 58002

  3. Submillimeter Emission from the Hot Molecular Jet HH 211

    A. Palau et al 2006 ApJ 636 L137

  4. The Astrobiology of Nucleobases

    Z. Peeters et al 2003 ApJ 593 L129

  5. Open-system thermodynamic analysis of DNA polymerase fidelity

    Field Cady and Hong Qian 2009 Phys. Biol. 6 036011

  6. Three-dimensional MHD Model of Wave Activity in a Coronal Active Region

    L. Ofman 2007 ApJ 655 1134

  7. Inhomogeneous light shift effects on atomic quantum state evolution in non-destructive measurements

    Patrick J Windpassinger et al 2008 New J. Phys. 10 053032

  8. Relativistic Jets in the Radio Reference Frame Image Database. I. Apparent Speeds from the First 5 Years of Data

    B. G. Piner et al. 2007 The Astronomical Journal 133 2357

  9. Observational Consequences of Hydrodynamic Flows on Hot Jupiters

    Jonathan Langton and Gregory Laughlin 2007 ApJ 657 L113

  10. The Changing Face of the Extrasolar Giant Planet HD 209458b

    James Y-K. Cho et al 2003 ApJ 587 L117

Users also read

What's this?
This innovative new feature generates a list of articles 'also read' by other users based on them reading the original article. Article abstracts citations and references are all considered and weighted accordingly. We hope that this will help you find relevant papers for your research.

  1. Catalog of Nearby Exoplanets
  2. Mass-Radius Relationships for Solid Exoplanets

Share

View by subject




Export








Please login to access our web services, or create an account if you don't yet have one.

You must have cookies enabled in your web browser to be able to login.

Username
Password

Forgotten your password? Get a new one here.