What question did this study set out to answer?

The aim is to experimentally study lasing from atomic argon using ultraviolet femtosecond laser pulses.

June 3, 2026

Forward and Backward Lasing from an Ultraviolet Filament in Argon

Key Points

The aim is to experimentally study lasing from atomic argon using ultraviolet femtosecond laser pulses.
Conducted experiments using 250 nm femtosecond laser pulses to induce lasing in argon.
Measured emission on 4p to 4s transitions at various wavelengths.
Analyzed the angular divergence and spatial profile of emissions.
Observed lasing emissions at 763.5, 801.5, and 842.5 nm in both forward and backward directions.
Identified a threshold energy of ~90 μJ for increased emission intensity.
Forward lasing energy was nearly ten times greater than that of backward lasing.

Abstract

Lasing of atomic argon induced by filamentation of ultraviolet femtosecond laser pulses at 250 nm has been experimentally studied. Emission on the 4p 4s transitions (763. 5, 801. 5, and 842. 5 nm) is observed to propagate both in the forward direction, along the laser pulse, and in the backward direction. An energy threshold of ~90 μJ is identified, above which the emission intensity increases sharply. The forward lasing energy exceeds the backward one by nearly an order of magnitude. The spatial profile of the emission consists of concentric rings with an angular divergence below 10 mrad. Based on estimates of the gain length, the gain coefficient of the medium is approximately 0. 1 cm–1.

Forward and Backward Lasing from an Ultraviolet Filament in Argon

Key Points

Abstract

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