High-gain, high-efficiency stimulated Raman amplification with beam clean-up

Stokes amplification has been demonstrated in a single-stage Raman amplifier using collinear geometry with near-diffraction-limited seeds at very high efficiency and relatively high fluence, producing near-diffraction-limited Stokes beams from highly aberrated pump sources. Single-stage amplificatio...

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Published inJournal of applied physics Vol. 66; no. 10; pp. 4625 - 4634
Main Authors MANDL, A, HOLMES, R, FLUSBERG, A, FULGHUM, S, ANGELEY, D
Format Journal Article
LanguageEnglish
Published Woodbury, NY American Institute of Physics 15.11.1989
Subjects
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Nonlinear optics
Optics
Physics
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Abstract Stokes amplification has been demonstrated in a single-stage Raman amplifier using collinear geometry with near-diffraction-limited seeds at very high efficiency and relatively high fluence, producing near-diffraction-limited Stokes beams from highly aberrated pump sources. Single-stage amplification of over 20 000 was achieved with converted fluences up to 1.5 J/cm2. We find excellent agreement between the experiment and our full Raman code for all the measured parameters. In addition, detailed calculations and measurements of the near-field-fluence distribution on the output Stokes beam agree reasonably well.
AbstractList Stokes amplification has been demonstrated in a single-stage Raman amplifier using collinear geometry with near-diffraction-limited seeds at very high efficiency and relatively high fluence, producing near- diffraction-limited Stokes beams from highly aberrated pump sources. Single-stage amplification of over 20,000 was achieved with converted fluences up to 1.5 J/sq cm. Excellent agreement is found between the experiment and a full Raman code for all the measured parameters. In addition, detailed calculations and measurements of the near-field-fluence distribution on the output Stokes beam agree reasonably well. (Author)
Stokes amplification has been demonstrated in a single-stage Raman amplifier using collinear geometry with near-diffraction-limited seeds at very high efficiency and relatively high fluence, producing near-diffraction-limited Stokes beams from highly aberrated pump sources. Single-stage amplification of over 20 000 was achieved with converted fluences up to 1.5 J/cm2. We find excellent agreement between the experiment and our full Raman code for all the measured parameters. In addition, detailed calculations and measurements of the near-field-fluence distribution on the output Stokes beam agree reasonably well.
Author MANDL, A
HOLMES, R
ANGELEY, D
FULGHUM, S
FLUSBERG, A
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SubjectTerms Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Nonlinear optics
Optics
Physics
Title High-gain, high-efficiency stimulated Raman amplification with beam clean-up
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