Research progress on a focal plane array ladar system using chirped amplitude modulation

Stann, Barry L.; Abou-Auf, Ahmed A.; Aliberti, Keith; Dammann, J. Francis; Giza, Mark M.; Dang, G.; Ovrebo, Greg; Redman, Brian; Ruff, William C.; Simon, Deborah R.

doi:10.1117/12.486977

Cited by 12 publications

(1 citation statement)

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“…1 3,4 InGaAs MSM-PDs would allow LADAR operation at eye-safe wavelengths. Unfortunately, the Schottky barrier height on InGaAs is quite low (~0.1-0.2 eV) 5 leading to high dark current and, hence, low signal-to-noise ratio.…”

Section: Introductionmentioning

confidence: 99%

Analysis of InGaAs metal-semiconductor-metal OE mixers

et al. 2004

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We analyze the optoelectronic mixing characteristics of InAlAs, Schottky-enhanced, InGaAs-based, metalsemiconductor-metal photodetectors. For devices with Schottky-enhancement layers (SELs) of about 500 Å, the measured frequency bandwidth is less than that of a corresponding photodetector. The mixing efficiency decreases with decrease in optical power, decreases with increase in local oscillator frequency and decreases with decrease in mixed signal frequency. We attribute this behavior to the band-gap discontinuity associated with the SEL. For devices with thinner SELs ( 100 ≈ Å), the mixing characteristics are greatly improved: the bandwidth of the optoelectronic mixer (OEM) is similar to that of a corresponding photodetector and the mixing efficiency decreases only slightly with decrease in optical power. We attribute these results to the enhancement of thermionic/tunneling current through the thinner SEL. We also present a circuit model of the Schottky-enhanced, InGaAs-based OEM to explain the experimental results.

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