3 kW passive-gain-enabled metalized Raman fiber amplifier based on passive gain

TL;DR

This paper introduces a novel 3 kW Raman fiber laser using metal-coated passive fiber for improved thermal management, achieving record-high power and efficiency in all-fiberized Raman lasers.

Contribution

First demonstration of a high-power Raman fiber laser employing metal-coated passive fiber for enhanced thermal performance and stability.

Findings

Maximum output power of 3.083 kW at 1130 nm

Conversion efficiency of 78.7%

First Raman laser based on metal-coated passive fiber

Abstract

Raman fiber lasers (RFLs) are currently promising and versatile light sources for a variety of applications. So far, operations of high power and brightness-enhanced RFLs have absorbed enormous interests along with rapid progress. Nevertheless, the stable Raman lasing at high power levels remains challenged by the thermal effects. In an effort to realize more effective thermal management in high power RFLs, here we demonstrate, for the first time, an all-fiberized RFA employing metal-coated passive fiber enabling high power lasing. By employing aluminum to the cladding of graded-index (GRIN) passive fiber, the thermal abstraction of the laser devices is more sufficient to support low-temperature operation. The maximum output power reaches 3.083 kW at 1130 nm with a conversion efficiency of 78.7%. To the best of our knowledge, this is the first Raman laser generation based on metal-coated passive fiber. Meanwhile, it is also the highest power attained in the fields of all kinds of Raman lasers based on merely nonlinear gain.