2001
DOI: 10.1016/s1350-4495(01)00082-2
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Experimental observation of transient photocurrent overshoot in quantum well infrared photodetectors

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Cited by 6 publications
(5 citation statements)
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“…2c; Supplementary Section 7). A photocurrent overshoot 30,31 in the on/off switching is observed for illumination on or near the graphene (0 ≤ X < 10 µm) with a high laser power (Supplementary Section 7). We found that both the photocurrent and photoresponsivity do not change significantly up to distances of ∼100 µm, and then they decrease by more than one order of magnitude with increasing distance (Fig.…”
Section: Position-sensitive Nonlocal Large-area Photoresponsementioning
confidence: 99%
“…2c; Supplementary Section 7). A photocurrent overshoot 30,31 in the on/off switching is observed for illumination on or near the graphene (0 ≤ X < 10 µm) with a high laser power (Supplementary Section 7). We found that both the photocurrent and photoresponsivity do not change significantly up to distances of ∼100 µm, and then they decrease by more than one order of magnitude with increasing distance (Fig.…”
Section: Position-sensitive Nonlocal Large-area Photoresponsementioning
confidence: 99%
“…It has been shown recently that also the frequency dependent behavior of the responsivity is affected by the recharging process. 12,13 At low operation temperatures or at short detection wavelengths ͑e.g., 3-5 m͒ the differential conductivity is much smaller than for the QWIP investigated in the present study, such that the cutoff frequency of the recharging process can be substantially smaller than the 50 Hz measurement bandwidth of a typical QWIP IR-camera.…”
mentioning
confidence: 99%
“…The small overshoot in the rise time in the photoresponse measured under 800 and 850 nm excitation has previously been attributed to space–charge effects in mid‐IR quantum‐well detectors. [ 33 ] A similar effect can occur in our p‐B‐n photodiode, where the fast photoinjection of carriers may cause a nonlinear response of the built‐in field at the CdTe/Cd 3 As 2 interface. The response times are similar to that of a commercial InGaAs detector, shown in Figure 3g for comparison.…”
Section: Resultsmentioning
confidence: 65%