• DocumentCode
    1324936
  • Title

    Integrated Two-Section Discrete Mode Laser

  • Author

    Anandarajah, P.M. ; Latkowski, S. ; Browning, C. ; Zhou, R. ; O´Carroll, J. ; Phelan, R. ; Kelly, B. ; O´Gorman, J. ; Barry, L.P.

  • Author_Institution
    Rince Inst., Dublin City Univ., Dublin, Ireland
  • Volume
    4
  • Issue
    6
  • fYear
    2012
  • Firstpage
    2085
  • Lastpage
    2094
  • Abstract
    The authors present the design and characterization of a novel integrated two-section discrete mode index patterned diode laser source. The two slotted regions etched into the laser ridge waveguide are formed in the same fabrication step as the ridge, thus avoiding the requirement for complex lithography and regrowth steps. The laser is encased in a temperature-controlled butterfly package, which simplifies the static and dynamic measurements. Initial static characterization of this two-section laser shows that the injection, from the master laser to the slave laser, enhances the slave´s emission side-mode suppression ratio from 30 dB to over 50 dB and its relative intensity noise is reduced from about -129.3 dB/Hz to -142.6 dB/Hz. Subsequent dynamic characterization then shows that the modulation bandwidth of the laser can be improved via injection to about three times the inherent free-running bandwidth. Hence, optical injection from master section into slave section enables the improvement of various parameters, which makes this two-section device attractive as a transmitter in optical communication systems.
  • Keywords
    laser modes; lithography; optical modulation; optical waveguides; semiconductor lasers; complex lithography; dynamic measurement; inherent free-running bandwidth; integrated two-section discrete mode index; integrated two-section discrete mode laser; laser modulation bandwidth; laser ridge waveguide; optical injection; patterned diode laser source; slotted region etching; static measurement; temperature-controlled butterfly package; Laser mode locking; Measurement by laser beam; Modulation; Optical device fabrication; Semiconductor lasers; Waveguide lasers; Optical injection locking; direct modulation; frequency response; relative intensity noise (RIN);
  • fLanguage
    English
  • Journal_Title
    Photonics Journal, IEEE
  • Publisher
    ieee
  • ISSN
    1943-0655
  • Type

    jour

  • DOI
    10.1109/JPHOT.2012.2226023
  • Filename
    6336772