Todd D. Saunders scite author profile

Todd D. Saunders

2Publications

13Citation Statements Received

0Citation Statements Given

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University of Illinois Urbana-Champaign

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High-temperature kinetics in He and Ne buffered XeF lasers: The effect on absorption

Moratz

Saunders

Kushner

1989

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Excimer lasers excited by electron or ion beams having energy deposition of 100’s J/ℓ over many microseconds experience a temperature rise of hundreds of degrees (K). The increase in gas temperature may greatly impact both the kinetics and spectroscopic parameters. In this letter we discuss the high-temperature (≤900 K) plasma kinetics and absorption in He and Ne buffered gas mixtures for particle beam pumped XeF lasers. We find both gain and absorption depend differently on gas temperature in these mixtures (absorption decreasing in He mixtures, increasing in Ne mixtures). The differences are attributed to a reduction in diatomic absorbing species with increasing temperature and differences in the temperature dependence of the optical absorption cross sections for NeXe+ and Xe+2.

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Heavy-ion versus electron-beam excitation of an excimer laser

Moratz

Saunders

Kushner

1988

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A model is described for the heavy-ion pumping of an XeF(B) laser by uranium fission fragments (FF).The model is a self-consistent accounting of the generation and transport of the FF’s through the fission foils, slowing of the fragments in the gas, evolution of the secondary-electron-source function and distribution, and the XeF laser plasma kinetics. By simulating the same quantities for an e-beam-pumped plasma, direct comparisons can be made for laser performance. We found that the secondary-electron source generated by the e-beam is more energetic than that for direct ionization by FF’s due to a more favorable mass ratio for momentum transfer collisions with orbital electrons. This difference in the electron-source functions significantly affects W values and excitation fractions. The impact on laser performance, though, is not large due to the high efficiency of channeling deposited energy to the upper laser level in XeF lasers. For conditions typical of FF excitation (power deposition 1–3 kW cm−3, pulse length ≊200 μs), e-beam excitation results in 10%–15% higher gain than heavy-ion excitation.

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Todd D. Saunders

High-temperature kinetics in He and Ne buffered XeF lasers: The effect on absorption

Heavy-ion versus electron-beam excitation of an excimer laser

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