Scaled-up production of <i>n</i>-C3F7I photolytic laser ‘‘fuel’’

Herrera, S. D.; Schlie, L. A.; Richert, Sabine

doi:10.1063/1.1139914

Cited by 3 publications

(1 citation statement)

References 9 publications

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“…In addition, CF20 overlaps many other features such as the C2F6 line near 1250 cm-I. Figure 3 shows the analogous spectra for n-C3F71, which was produced on site [35]. An FTIR spectrum of the n-C3F7I is shown in Figure 3(a) and is consistent with the Sadtler [28] and Aldrich [36] spectra.…”

Section: End Productssupporting

confidence: 62%

The dark reactions F2 + CF3I, C2F5I, andn-C3F7I

Johnson

Walters

Dorko³

1996

Int. J. Chem. Kinet.

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The reactions between F2 and the lowest members of the homologous series of perfluoroalkyl iodides (CF3I, C2F5I, and n‐C3F7I) have been studied. For these compounds, an exponential decrease in the alkyl iodide concentration over time following an induction period is observed for certain experimental conditions. Other conditions lead to chaotic‐like kinetic behavior where the rate of alkyl iodide consumption continually changes. Kinetic rate data with CF3I show that the disappearance rate depends upon both the type of surface and surface preparation. For all three compounds, Arrhenius plots reveal activation energies on the order of 10 kcal/mol, consistent with effective initiation steps of F2 + RI → RIF + F, where R represents the CF3, C2F5, or n‐C3F7 radical respectively. The end products of the F2 + RI reactions are RF, R2, and IF5, suggesting that the R radicals play an important kinetic role. Introducing O2 into the F2 + RI reaction systems results in successive oxidation of R by O2, leading to the formation of CF2O as an additional end product. IF(B → X) emission is observed from the RI‐rich F2 + RI reactions, confirming the existence of IF as an intermediate. © 1996 John Wiley & Sons, Inc.

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Section: End Productssupporting

confidence: 62%

The dark reactions F2 + CF3I, C2F5I, andn-C3F7I

Johnson

Walters

Dorko³

1996

Int. J. Chem. Kinet.

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Intense 1.315-μm atomic iodine emission from TlI/Xe discharges

Schlie

Rathge

1989

Journal of Applied Physics

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Results are presented showing that cw, rf discharge excitation of low-pressure gas mixtures of TlI and Xe produce very strong atomic iodine emission at 1.315 μm. An examination of previous electron beam excitation observations coupled with these results suggest that there exist two pumping processes for the excited atomic iodine. These are resonant energy transfer of Tl metastables to the excited iodine level and photolytic excitation/collisional TlI dissociative excitation from excited Xe metastable atoms. The overall results suggest a potential for this system as a cw, completely cyclic, self-contained atomic iodine laser at 1.315 μm.

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Repetitively pulsed, 70-J photolytic iodine laser with excellent optical and long/reliable operation

Schlie

Rathge

1995

IEEE J. Quantum Electron.

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Scaled-up production of n-C3F7I photolytic laser ‘‘fuel’’

Cited by 3 publications

References 9 publications

The dark reactions F2 + CF3I, C2F5I, andn-C3F7I

The dark reactions F2 + CF3I, C2F5I, andn-C3F7I

Intense 1.315-μm atomic iodine emission from TlI/Xe discharges

Repetitively pulsed, 70-J photolytic iodine laser with excellent optical and long/reliable operation

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