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Sub-picosecond wideband efficient saturable absorber created by high energy (200 MeV) irradiation of Au+ ions into bulk GaAs

Sub-picosecond wideband efficient saturable absorber created by high energy (200 MeV) irradiation of Au+ ions into bulk GaAs

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The authors demonstrate, using pump-probe experiments, that defects created by a 200 MeV Au+ ion beam in bulk GaAs reduce the relaxation time of the saturable absorption of the material to as little as 200 fs. The sample absorption is modulated over a spectral width of 50 nm. The integrated value of the absorption modulation thus shows the high absorption efficiency of the irradiated material. A very small variation in relaxation time is found when the density of photocreated carriers is increased to ~5 × 1018 cm–3. This material appears to be very promising for applications in optical processing and ultrafast measurement at high pulse repetition rates.

Inspec keywords: gold; gallium arsenide; carrier relaxation time; III-V semiconductors; high-speed optical techniques; ion implantation; optical saturable absorption

Other keywords: high energy irradiation; absorption modulation; subpicosecond wideband efficient saturable absorber; relaxation time; bulk III-V semiconductor; ion implantation; saturable absorption; ultrafast measurement; high pulse repetition rates; irradiation induced defects; high absorption efficiency; optical processing; 200 fs; 200 MeV; Au+ ions; pump-probe experiments; density of photocreated carriers; GaAs:Au

Subjects: II-VI and III-V semiconductors; Nonlinear optics and devices; Ion beam effects; Doping and implantation of impurities; Ultrafast optical techniques; Optical transient phenomena, self-induced transparency, optical saturation and related effects; Ultrafast optical measurements in condensed matter; Semiconductor doping

References

    1. 1)
      • T.B. Norris . Femtosecond pulse amplification at 250 kHz with a Ti:sapphire regenerativeamplifier and application to continuum generation. Opt. Lett. , 1009 - 1011
    2. 2)
      • J.F. Ziegler , J.P. Biersack , U. Littmark . (1985) The stopping and range of ions in solids.
    3. 3)
      • S.S. Prabhu , S.E. Ralph , M.R. Melloch , E.S. Harmon . Carrier dynamics of low-temperature-grown GaAs observed via THz spectroscopy. Appl. Phys. Lett. , 18 , 2419 - 2421
    4. 4)
      • P.W. Smith , Y. Silberberg , D.A.B. Miller . Mode-locking of semiconductor diode lasers using saturable exitonic nonlinearities. J. Opt. Soc. Am. B , 7 , 1228 - 1236
    5. 5)
      • M. Kuznetsov . Pulsation of semiconductor lasers with a proton bombarded segment: well-developedpulsations. IEEE J. Quantum Electron. , 6 , 587 - 592
    6. 6)
      • J.P. van der Ziel , W.T. Tsang , R.A. Logan , W.M. Augustyniak . Pulsating output of separate confinement buried optical guide lasersdue to the deliberate introduction of saturable loss. Appl. Phys. Lett. , 376 - 378
    7. 7)
      • Zh.I. Alferov , A.B. Zhuravlev , E.L. Portnoy , N.M. Stelmakh . Picosecond pulses from Q-switched injection heterostructure lasers. Sov. Tech. Phys. Lett. , 9 , 452 - 453
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