Liang Dong

Summary

Affiliation: Clemson University
Country: USA

Publications

  1. doi request reprint Stimulated thermal Rayleigh scattering in optical fibers
    Liang Dong
    The Holcombe Department of Electrical and Computer Engineering, Center for Optical Materials Science and Technology, Clemson University, 91 Technology Drive, Anderson, South Carolina 29625, USA
    Opt Express 21:2642-56. 2013
  2. doi request reprint A vector boundary matching technique for efficient and accurate determination of photonic bandgaps in photonic bandgap fibers
    Liang Dong
    Center for Optical Material Sciences and Engineering Technologies, Department of Electrical and Computer Engineering, Clemson University, 207 A, Riggs Hall, Clemson, SC 29634, USA
    Opt Express 19:12582-93. 2011
  3. doi request reprint Precise tailoring of acoustic velocity in optical fibers by hydrogenation and UV exposure
    Fanting Kong
    Center for Optical Materials Science and Technology Department of Electric and Computer Engineering, Clemson University, Anderson, SC 29625, USA
    Opt Express 20:27810-9. 2012
  4. doi request reprint Mode area scaling with all-solid photonic bandgap fibers
    Fanting Kong
    Center for Optical Materials Science and Technology, Clemson University, Anderson, South Carolina 29625, USA
    Opt Express 20:26363-72. 2012
  5. doi request reprint Light-emitting coaxial nanofibers
    Haifeng Yang
    Laboratory for Nano Electro Mechanical Systems and Lab Chips, Department of Electrical and Computer Engineering, Iowa State University, Ames, Iowa 50011, USA
    ACS Nano 6:622-8. 2012

Collaborators

  • Kunimasa Saitoh
  • Fanting Kong
  • Haifeng Yang
  • Paul Foy
  • Carin R Lightner
  • Guancheng Gu
  • Devon Mcclane
  • Thomas Hawkins

Detail Information

Publications5

  1. doi request reprint Stimulated thermal Rayleigh scattering in optical fibers
    Liang Dong
    The Holcombe Department of Electrical and Computer Engineering, Center for Optical Materials Science and Technology, Clemson University, 91 Technology Drive, Anderson, South Carolina 29625, USA
    Opt Express 21:2642-56. 2013
    ..In this work, a quasi-closed-form solution for the nonlinear coupling coefficient is found for stimulated thermal Rayleigh scattering in optical fibers. The results help to significantly improve understanding of mode instability...
  2. doi request reprint A vector boundary matching technique for efficient and accurate determination of photonic bandgaps in photonic bandgap fibers
    Liang Dong
    Center for Optical Material Sciences and Engineering Technologies, Department of Electrical and Computer Engineering, Clemson University, 207 A, Riggs Hall, Clemson, SC 29634, USA
    Opt Express 19:12582-93. 2011
    ..Both are desired new capabilities for further explorations of advanced new designs of photonic bandgap fibers...
  3. doi request reprint Precise tailoring of acoustic velocity in optical fibers by hydrogenation and UV exposure
    Fanting Kong
    Center for Optical Materials Science and Technology Department of Electric and Computer Engineering, Clemson University, Anderson, SC 29625, USA
    Opt Express 20:27810-9. 2012
    ..It is possible to use this technique to precisely tailor acoustic velocity along a fiber for more optimized SBS suppression in a fiber amplifier. Change in Brillouin Stokes frequency of ~320MHz at 1.064μm was observed...
  4. doi request reprint Mode area scaling with all-solid photonic bandgap fibers
    Fanting Kong
    Center for Optical Materials Science and Technology, Clemson University, Anderson, South Carolina 29625, USA
    Opt Express 20:26363-72. 2012
    ..In this paper, we will show for the first time that all-solid photonic bandgap fibers with effective mode area of ~920?m<sup>2</sup> can be made with excellent higher order mode suppression...
  5. doi request reprint Light-emitting coaxial nanofibers
    Haifeng Yang
    Laboratory for Nano Electro Mechanical Systems and Lab Chips, Department of Electrical and Computer Engineering, Iowa State University, Ames, Iowa 50011, USA
    ACS Nano 6:622-8. 2012
    ....