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Nuclear Spin Dependence of the Reaction of H3+ with H2

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Presentation on theme: "Nuclear Spin Dependence of the Reaction of H3+ with H2"— Presentation transcript:

1 Nuclear Spin Dependence of the Reaction of H3+ with H2
Kyle N. Crabtree, Lt. Col. Brian A. Tom, USAF, Carrie A. Kauffman, and Benjamin J. McCall University of Illinois 23 June 2010

2 Nuclear Spin Effects in Dense Hydrogenic Plasmas
Kyle N. Crabtree, Lt. Col. Brian A. Tom, USAF, Carrie A. Kauffman, and Benjamin J. McCall University of Illinois 23 June 2010

3 + H H3+: Why is it important?
Dominant ionic species in hydrogenic plasma Cornerstone of interstellar gas-phase ion-molecule chemistry

4 Astronomical Spectroscopy of H3+
36685 Å R(1,1)u 36681 Å B. J. McCall Ph.D. Thesis, University of Chicago (2001).

5 Temperature Discrepancy
Temperature derived from H3+ in diffuse clouds ≠ cloud kinetic temperature T (H3+) ~ 30 K T (kinetic) ~ 70 K H3+ + H2  H2 + H3+ reaction allows H3+ population to transfer between ortho and para spin configurations

6 Para-H2 Production 15 K >99.9% purity Ferric Oxide catalyst
B. A. Tom, S. Bhasker, Y. Miyamoto, T. Momose, and B. J. McCall Rev. Sci. Inst (2009), 80,

7 Hollow Cathode Cell T = 110 – 350 K

8 Spectrometer Spectral Range: 2.2-4.8 μm Output Power: 500-700 μW V HV
200 ms GND time InSb

9 Observed Transitions R(3,0) R(3,3)l R(2,1)u R(2,2)l R(1,0) R(1,1)u

10 Normal H2, No Cooling Pulse Shape: R(1,0)
Pulse on Pulse off Tkin Abs. Frequency

11 Normal H2, No Cooling Temperatures

12 Normal H2, No Cooling Para-H3+ Percentage
t = 300 ms

13 Normal H2, No Cooling Rotational Temperature
Trot ~ 350 K

14 No Cooling, Enriched p-H2 Peak Areas
ortho-H3+ para-H3+ para-H3+

15 No Cooling, Enriched p-H2 Temperatures

16 No Cooling, Enriched p-H2 Temperatures
H3+ + p-H2  H3+ + o-H2 p-H2; J = 0 o-H2; J = 1 ΔE = 170 K

17 No Cooling, Enriched p-H2 Para-H3+ Fractions

18 Liquid Nitrogen Cooling (n-H2) : Pressure Dependence
H3+ + 2H2  H5+ + H2 High Pressure Low Pressure T ~ 130 K

19 Liquid Nitrogen Cooling (p-H2): Temperatures

20 Liquid Nitrogen Cooling (p-H2): para-H3+ Fraction

21 Concluding Remarks

22 Acknowledgements Brett McGuire (Emory University) NSF PHY

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