2014
DOI: 10.1063/1.4864623
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Highly efficient and electrically robust carbon irradiated semi-insulating GaAs based photoconductive terahertz emitters

Abstract: Abstract:We demonstrate here an efficient THz source with low electrical power consumption. We have increased the maximum THz radiation power emitted from SI-GaAs based photoconductive emitters by two orders of magnitude. By irradiating the SI-GaAs substrate with Carbon-ions up to 2 m deep, we have created lot of defects and decreased the life time of photo-excited carriers inside the substrate. Depending on the irradiation dose we find 1 to 2 orders of magnitude decrease in total current flowing in the subst… Show more

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Cited by 33 publications
(22 citation statements)
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“…We note that there is an offset in the I-V characteristic due to photocurrent which is not present under dark conditions (see Appendix B). The observed nonlinear rise in current at higher biases is commonly found in THz devices and it comes from Ohmic heating (e.g., see [40,41]). This limits practical device operation to values below the nonlinear regime [42].…”
Section: Resultsmentioning
confidence: 86%
“…We note that there is an offset in the I-V characteristic due to photocurrent which is not present under dark conditions (see Appendix B). The observed nonlinear rise in current at higher biases is commonly found in THz devices and it comes from Ohmic heating (e.g., see [40,41]). This limits practical device operation to values below the nonlinear regime [42].…”
Section: Resultsmentioning
confidence: 86%
“…Thus, it has enabled us to apply higher bias voltages (~ 150 V, in comparison to ~ 35-40 V) on our THz sources , resulting in an increase of the emitted THz amplitude by a factor ~ 12, as reported in Ref. [8]. In fact, the efficiency of these THz sources can match the performance of LT-GaAs emitters.…”
mentioning
confidence: 71%
“…In an earlier paper [8], we have reported on the advantages of carbon irradiated SI-GaAs for photoconductive THz sources compared with those made from standard SI-GaAs. Here, we present drastic improvement in the detection of THz pulses using these irradiated substrates.…”
mentioning
confidence: 99%
“…One downside of PC THz emitters is that the charge-carrier lifetime is typically much longer than the picosecond duration of the terahertz transient, which leads to residual photocurrents that cause ohmic losses and Joule heating. These effects impede the desired scaling up of the THz electric field through raising the bias voltage amplitude or excitation optical fluence [21]. (The thermal runaway onset and the excitation optical fluence have an inverse relationship [22].)…”
Section: Introductionmentioning
confidence: 99%