Research and Development of High Energy 2 - Micron Lasers Based on TM: Doped Ceramic Laser Gain Media and TM: Doped Optical Fibers

Abstract

Our research and development of 2-micro(m) femtosecond lasers over the past few years include development of mode-locked Tm:fiber lasers, super-continuum generation starting at 2 micro(m), and efficiently converting the femtosecond pulses of well-developed 1-micro(m) mode-locked lasers to 2 micro(m) and 4 micro(m). In this report we briefly overview our past work through this contract on the development of an all-fiber Tm mode-locked laser and super-continuum generation, and early work on half-harmonic generation of 2 micro(m) and 4 micro(m) femtosecond pulses and present our recent work on high-power half-harmonic generation at 2 micro(m), GaP-based half-harmonic generation at 4 micro(m), and theoretical studies of simulton formation in half-harmonic generation. We have achieved more than 65% of conversion efficiency for the half-harmonic generation, and more than 1.7 W of approximately 30-fs pulses at 2-micro(m). We have also achieved approximately 43% conversion efficiency in the second stage of half-harmonic generation using orientation-patterned GaP (OP-GaP) resulting in approximately 220 mW of approximately three-optical-cycle pulses at 4 micro(m). Since the initial 1-micro(m) laser was a frequency comb source, we could measure the absolute frequencies of the resulting comb at 2 micro(m) and 4 micro(m) and show that cascaded half-harmonic generation of frequency combs was an intrinsically frequency-locked down-conversion process. Using a split-step Fourier numerical tool, we discovered a new operation regime of half-harmonic optical parametric oscillators (OPOs), where self-consistent pulses are formed in the resonators, enabling extremely high slope efficiencies. Experimental observations match the theoretical prediction, and they pave the way to further enhancement of the conversion efficiency and spectral coverage of half-harmonic generation.

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Document Details

Document Type
Technical Report
Publication Date
Jul 20, 2016
Accession Number
AD1012273

Entities

People

  • Alireza Marandi
  • Robert L. Byer
  • Roger Route

Organizations

  • Stanford University

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Air Force Research Laboratories
  • Amplifiers
  • Contracts
  • Electronic Mail
  • Energy
  • Femtosecond Time
  • Fibers
  • Frequency
  • Frequency Combs
  • Group Velocity
  • High Energy
  • Lasers
  • Optical Fiber Lasers
  • Optical Fibers
  • Repetition Rate
  • Spectra
  • Spectroscopy

Fields of Study

  • Physics

Readers

  • Critical Infrastructure Protection in CBRN and WMD Threats.
  • Optical Physics and Photonics.

Technology Areas

  • Directed Energy