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High-power solid-state cw dye laser.

R Bornemann1, E Thiel, P Haring Bolívar

  • 1Universität Siegen, Zentrum für Sensorsysteme (ZESS) and Institut für Höchstfrequenztechnik und Quantenelektronik (HQE), Siegen, Germany. rainer.bornemann@zess.uni-siegen.de

Optics Express
|January 26, 2012
PubMed
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We developed a high-power tunable solid-state dye laser offering 800 mW output at 575 nm with stable, low-noise performance. This compact laser system features a narrow spectral width and tunable range, ideal for various applications.

Area of Science:

  • Optics and Photonics
  • Laser Technology
  • Materials Science

Background:

  • Solid-state dye lasers offer tunable wavelength and high output power.
  • Achieving long-time power stability and low noise is crucial for practical applications.
  • Organic dye photostability remains a key challenge in solid-state laser development.

Purpose of the Study:

  • To present a high-power tunable solid-state dye laser setup.
  • To characterize its output power, stability, spectral properties, and beam quality.
  • To investigate the photo-degradation mechanisms limiting long-time power stability.

Main Methods:

  • Development of a novel solid-state dye laser architecture.
  • Characterization of laser output using power meters and spectrum analyzers.

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  • Spatially resolved micro-imaging and spectroscopic studies to analyze dye degradation.
  • Main Results:

    • Peak output power of 800 mW achieved around 575 nm.
    • Excellent long-time power stability and low noise level demonstrated.
    • Spectral width < 3 GHz, tunable over > 30 nm, with M(2) < 1.4.
    • Compact housing dimensions: 60 × 40 × 20 cm³.

    Conclusions:

    • The developed solid-state dye laser system provides high power, stability, and tunability.
    • Organic dye photodecomposition is the primary limitation for long-time power stability.
    • Detailed analysis of degradation mechanisms offers insights for future laser design.