Nick Indriolo1, Thomas R. Geballe2, Takeshi Oka3, and Benjamin J

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Presentation transcript:

H3+ in Diffuse Interstellar Clouds: A Tracer for the Cosmic-Ray Ionization Rate Nick Indriolo1, Thomas R. Geballe2, Takeshi Oka3, and Benjamin J. McCall1 1 University of Illinois at Urbana-Champaign 2 Gemini Observatory 3 University of Chicago June 19, 2007

Motivations H3+ is the cornerstone of ion-molecule reactions in the interstellar medium (ISM) Simple chemistry allows for the inference of various physical parameters (density, temperature, ionization rate, cloud size) June 19, 2007

adapted from McCall et al. (1999) Observations CGS4 spectrometer on the United Kingdom Infrared Telescope (UKIRT) adapted from McCall et al. (1999) June 19, 2007

Atmospheric Interference complex of CH4 lines centered at 36675.3 Å reduces transmission to about 50% various HDO lines also crowd the region and cut transmission to about 80% H3+ lines only have about 1-2% absorption, so a high S/N is necessary June 19, 2007

Detections June 19, 2007

Non-detections June 19, 2007

Relating column density to cosmic-ray ionization rate Formation pathway CR + H2 → CR + H2+ + e- H2 + H2+ → H3+ + H Destruction mechanism H3+ + e- → H2 + H or 3H Using the steady-state approximation we obtain... June 19, 2007

Variables & Assumptions f can be approximated using measured H I and H2 column densities L = NH/nH NH can be measured or estimated from E(B-V) nH is estimated in various ways (C I levels, C2 levels, J=4 level of H2) ζ2 = 2.3ζp N(H3+) is measured ke is known from experiments (~10-7 cm3 s-1) n(e)/nH is relatively constant in diffuse clouds (1.4×10-4 assuming electrons come from ionized carbon) 2 is certainly still 2 June 19, 2007

Results N(H3+) ζp Object (1014 cm-2) (10-16 s-1) HD 20041 1.6 2.9 < 2.2 < 5.7 HD 21389 1.0 1.8 40 Per < 0.9 < 2.6 ζ Per 0.7 3.2 o Per < 0.6 < 5.0 X Per 0.8 3.1 ε Per < 0.5 < 2.4 HD 169454 0.6 0.9 ξ Per < 4.5 HD 229059 3.9 62 Tau < 2.7 < 14 BD -14 5037 0.5 o Sco W40 IRS 1a 3.4 1.5 HD 147889 < 1.6 WR 104 2.3 1.4 ζ Oph < 0.3 < 1.5 WR 118 6.5 2.0 HD 168625 < 0.8 WR 121 2.2 1.7 λ Cep < 1.3 Cyg OB2 12 3.8 HD 168607 Cyg OB2 5 2.6 HD 194279 < 1.2 HD 183143 χ2 Ori < 0.7 < 2.1 P Cyg June 19, 2007

Cosmic-Ray Ionization Rates: Measured and Modeled ζp (10-16 s-1) ζ Per ο Per ε Per ξ Per ζ Oph Reference Method 3.2 <5.0 <2.4 <4.5 <1.5 this work H3+ 0.22 2.50 0.01 0.06 0.17 Hartquist et al. (1978) OH & HD 1.30 … ≤0.26 Federman et al. (1996) 1-2 ≥8 ≥4 van Dishoeck & Black (1986) models 5.2 McCall et al. (2003) 2.5 Le Petit et al. (2004) June 19, 2007

Possible Explanations for Differences smaller value of ke used in the past charge transfer H+ to O is endothermic grain neutralization ‘removes’ H+ N(D I)/N(H I) overestimates deuterium fraction nD/nH June 19, 2007

Conclusions H3+ is common and abundant in diffuse interstellar clouds Due to its simple chemistry, H3+ can be used to infer the cosmic-ray ionization rate ζp in diffuse clouds is relatively constant and an order of magnitude larger than previously believed June 19, 2007

Future Prospects Observing run at UKIRT June 29-July 2 to re-visit 4 sightlines and investigate 4 new sightlines 36 hours in January at UKIRT to get better S/N on Perseus sources Proposal submitted for time on Gemini South in December to investigate the diffuse ISM in the Large Magellanic Cloud June 19, 2007

Acknowledgments UKIRT staff NSF References Federman, S. R., Weber, J., & Lambert, D. L. 1996, ApJ, 463, 181 Hartquist, T. W., Doyle, H. T., & Dalgarno, A. 1978 A&A, 68, 65 Le Petit, F., Roueff, E., & Herbst, E. 2004, A&A, 417, 993 McCall, B. J., Geballe, T. R., Hinkle, K. H., & Oka, T. 1999, ApJ, 522, 338 McCall, B. J., et al. 2003, Nature, 422, 500 van Dishoeck, E. F., & Black, J. H. 1986, ApJS, 62, 109 June 19, 2007