Ref: ASTROimport-475

Rotationally Warm Molecular Hydrogen in the Orion Bar

Shaw, G. ; Ferland, G. J. ; Henney, W. J. ; Stancil, P. C. ; Abel, N. P. ; Pellegrini, E. W. ; Baldwin, J. A. ; van Hoof, P. A. M.

published in The Astrophysical Journal, 701, pp. 677-685 (2009)

Abstract: The Orion Bar is one of the nearest and best-studied photodissociation or photon-dominated regions (PDRs). Observations reveal the presence of H2 lines from vibrationally or rotationally excited upper levels that suggest warm gas temperatures (400-700 K). However, standard models of PDRs are unable to reproduce such warm rotational temperatures. In this paper, we attempt to explain these observations with new comprehensive models which extend from the H+ region through the Bar and include the magnetic field in the equation of state. We adopt the model parameters from our previous paper which successfully reproduced a wide variety of spectral observations across the Bar. In this model, the local cosmic ray density is enhanced above the galactic background, as is the magnetic field, and which increases the cosmic ray heating elevating the temperature in the molecular region. The pressure is further enhanced above the gas pressure in the H+ region by the momentum transferred from the absorbed starlight. Here, we investigate whether the observed H2 lines can be reproduced with standard assumptions concerning the grain photoelectric emission. We also explore the effects due to the inclusion of recently computed H2 + H2, H2 + H, and H2 + He collisional rate coefficients.

DOI: 10.1088/0004-637X/701/1/677
Links: link

The record appears in these collections:
Royal Observatory of Belgium > Astronomy & Astrophysics
Science Articles > Peer Reviewed Articles

 Record created 2016-07-01, last modified 2016-07-01