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Single-mode regenerative amplification in multimode fiber.


ABSTRACT: The peak power performance of ultrafast fiber lasers scales with fiber mode area, but large fibers host multiple modes that are difficult to control. We demonstrate a technique for single-mode operation of highly multimode fiber based on regenerative amplification. This results in a short-pulse fiber source with, to our knowledge, an unprecedented combination of features: high gain (>55 dB) with negligible amplified spontaneous emission, high pulse energy (>50 μJ), good beam quality (M2 ≤ 1.3), and transform-limited (300 fs) pulses from a single amplification stage. We discuss peak intensity scaling to much higher levels and other opportunities for short-pulse generation in regenerative fiber amplifiers.

SUBMITTER: Haig H 

PROVIDER: S-EPMC10906912 | biostudies-literature | 2023 Nov

REPOSITORIES: biostudies-literature

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Single-mode regenerative amplification in multimode fiber.

Haig Henry H   Bender Nicholas N   Eisenberg Yishai Y   Wise Frank F  

Optica 20231026 11


The peak power performance of ultrafast fiber lasers scales with fiber mode area, but large fibers host multiple modes that are difficult to control. We demonstrate a technique for single-mode operation of highly multimode fiber based on regenerative amplification. This results in a short-pulse fiber source with, to our knowledge, an unprecedented combination of features: high gain (>55 dB) with negligible amplified spontaneous emission, high pulse energy (>50 μJ), good beam quality (<i>M</i><su  ...[more]

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