Soft x-ray Ar <sup>+ 8</sup> laser excited by low-voltage capillary discharge

Fekete, B.; Kiss, M.; Shapolov, A. A.; Szatmari, S.; Kukhlevsky, S. V.

doi:10.1364/oe.498927

Opt. Express

2023

DOI: 10.1364/oe.498927

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Soft x-ray Ar ^+ 8 laser excited by low-voltage capillary discharge

B. Fekete,

M. Kiss,

A. A. Shapolov

et al.

Abstract: We demonstrated the operation of a 46.9-nm capillary discharge Ar + 8-laser excited by electrical pulses at a very low voltage (35 − 45 kV), which is approximately two times lower than previously reported. The decrease in pulse voltage not only allows for further reduction in the size of the laser's excitation part, but also a principal shift to the experimental methods, techniques, and technologies used in ordinary pulsed gas lasers operating in the ultraviolet, visible, and infrared regions of the spectra. I… Show more

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The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

Zhao,

Cui,

Wang

et al. 2025

Optics Communications

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The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

Zhao,

Cui,

Wang

et al. 2025

Optics Communications

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Short rise- and decay-time Z-pinch currents for soft x-ray laser excitation

Fekete,

Kiss,

Shapolov

et al. 2024

AIP Advances

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The article addresses how to create inductance-free plasma and use it to excite soft x-ray lasers. The method employs a bifilar phenomenon in which one part of the pulsed current flows via the plasma column while the other part runs in the opposite direction via the closely placed external conductor. The electromagnetic fields formed by the plasma and return conductor are adjusted by lowering the distance between them to neutralize the magnetic field of the bifilar. Because the net transient magnetic field is drastically reduced, the plasma-conductor mutual inductance is near zero during current rise and decay. The inductance-free (L ∼ 2 nH) 35 cm-long Z pinches in a 3.1 mm-diameter argon-filled alumina capillary with current rise and decay times of 15 ns, dI/dt > 1012 A/s, and amplitudes up to 17 kA were predicted, realized, and verified to be suitable for pumping soft x-ray Ar+8 lasers. Without the bifilar phenomenon, the 35 cm Z pinches obey a 200 nH inductance that restricts the rise and decay durations of currents to 150 ns. The 35 cm Z pinches with 2 nH inductance generated 46.9 nm laser pulses with up to 4 μJ of energy and a beam divergence of 2 mrad at a low operating voltage of 35–45 kV, compared to 0.1–0.8 MV for similar lasers. The bifilar method could find applications in many research and technological fields, where the rise and decay times of discharge currents play a key role.

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Soft x-ray Ar ^+ 8 laser excited by low-voltage capillary discharge

Cited by 2 publications

References 37 publications

The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

Short rise- and decay-time Z-pinch currents for soft x-ray laser excitation

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Soft x-ray Ar + 8 laser excited by low-voltage capillary discharge

Cited by 2 publications

References 37 publications

The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

The study of capillary discharge Ne-like 46.9 nm laser with a 2.5 mm inner diameter capillary

Short rise- and decay-time Z-pinch currents for soft x-ray laser excitation

Contact Info

Product

Resources

About

Soft x-ray Ar ^+ 8 laser excited by low-voltage capillary discharge