25 W of average power at 172 nm in the vacuum ultraviolet from flat, efficient lamps driven by interlaced arrays of microcavity plasmas

More than 25 W of average power and >800 W of peak power have been generated at λ=172 nm (hν=7.2 eV) in the vacuum ultraviolet (VUV) from the Xe2 molecule in flat, 10 × 10 cm2 lamps having an active area and volume of 80 cm2 and 20%. For a bipolar voltage waveform driving frequency of 137 kHz and a 54% Xe/Ne gas fill mixture at a 300 K pressure of 550 Torr, the lamp generates as much as 31.5 W of average power and intensities >350 mW cm−2 in 40–60 μJ, 70±10 ns FWHM pulses produced in a burst mode−four pulses of 600–850 W peak power in every cycle of the driving waveform. The lamp intensity is uniform to within ±2.5% at ≥10 mm from its surface and average power varies linearly with pulse repetition frequency throughout the 18−135 kHz interval. The spectral breadth of the Xe dim...

[1]  J. Eden,et al.  Interruption of electronically excited Xe dimer formation by the photoassociation of Xe(6s[3/2]2)-Xe(5p(6) (1)S0) thermal collision pairs. , 2016, The Journal of chemical physics.

[2]  Samer I. Al-Gharabli,et al.  Engineering of a highly efficient Xe₂*-excilamp (xenon excimer lamp, λmax=172 nm, η=40%) and qualitative comparison to a low-pressure mercury lamp (LP-Hg, λ=185/254 nm) for water purification. , 2016, Chemosphere.

[3]  Viktor F Tarasenko,et al.  Excilamps and their applications , 2012 .

[4]  J. Eden,et al.  Interchannel optical coupling within arrays of linear microplasmas generated in 25–200μm wide glass channels , 2010 .

[5]  M. Tsuji,et al.  Photochemical Removal of SO2 and CO2 by 172 nm Xe2 and 146 nm Kr2 Excimer Lamps in N2 or Air at Atmospheric Pressure , 2008 .

[6]  M. Tsuji,et al.  Efficient Conversion of NO2 into N2 and O2 in N2 or into N2O5 in Air by 172-nm Xe2 Excimer Lamp at Atmospheric Pressure , 2007 .

[7]  J. Eden,et al.  Two-dimensional simulation of ac-driven microplasmas confined to 100-300 μm diameter cylindrical microcavities in dielectric barrier devices , 2006 .

[8]  Karl H. Schoenbach,et al.  Microplasmas and applications , 2006 .

[9]  S. B. Alekseev,et al.  A photoreactor on the basis of a Xe2 excilamp , 2006 .

[10]  Ulrich Kogelschatz,et al.  Excimer lamps: history, discharge physics, and industrial applications , 2004, Atomic and Molecular Pulsed Lasers.

[11]  J. Eden From N/sub 2/ (337 nm) to high-order harmonic generation: 40 years of coherent source development in the UV and VUV , 2000, IEEE Journal of Selected Topics in Quantum Electronics.

[12]  J. Murray,et al.  Laser oscillation on the green bands of XeO and KrO , 1974 .

[13]  H. G. HEARD,et al.  Ultra-violet Gas Laser at Room Temperature , 1963, Nature.