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H. C. Liu

Bio: H. C. Liu is an academic researcher. The author has contributed to research in topics: Photodetector & Molecular beam epitaxy. The author has an hindex of 1, co-authored 1 publications receiving 27 citations.

Papers
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Journal ArticleDOI
TL;DR: In this paper, a GaNAsSb p-i-n photodetector operating in the 1.55-μm-wavelength region is presented, which consists of two undoped 70-A GaN0.025As0.615Sb0.36 quantum wells sandwiched between p- and n- GaAs barriers grown by molecular-beam epitaxy on GaAs substrate.
Abstract: We report a GaNAsSb p-i-n photodetector operating in the 1.55-μm-wavelength region. The device consists of two undoped 70-A GaN0.025As0.615Sb0.36 quantum wells sandwiched between p- and n- GaAs barriers grown by molecular-beam epitaxy on GaAs substrate. At 1.55μm, responsivities of 0.016 and 0.01A∕W are demonstrated for as-deposited and annealed samples, respectively, which correspond to absorption coefficients of 1.3×104 and 0.82×104cm−1.

29 citations


Cited by
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Journal ArticleDOI
TL;DR: In this paper, an integrated semiconductor photodetector-light-emitting diode (PD-LED) up-conversion device is proposed for infrared imaging applications.

43 citations

Journal ArticleDOI
TL;DR: In this paper, a GaAsSbN layer closely lattice matched to GaAs was used as an intrinsic layer (i layer) in a GAAs∕GaAs SbN ∕ GaAs p-i-n photodiode with response up to 1.3μm.
Abstract: A GaAsSbN layer closely lattice matched to GaAs was used as an intrinsic layer (i layer) in a GaAs∕GaAsSbN∕GaAs p-i-n photodiode with response up to 1.3μm. Deep level transient spectroscopy measurement on the GaAs∕GaAsSbN∕GaAs reveals two types of hole traps (HTs) in the GaAsSbN i layer; (i) HT1: a shallow N-related defect state (Ea∼0.10–0.12eV) and (ii) HT2: an AsGa point defect-related midgap defect state with Ea∼0.42–0.43eV. Reduction in growth temperature from 480to420°C reduces the HT2 trap concentration from 4×1015to1×1015cm−3, while increases the HT1 trap concentration from 1×1014to7×1014cm−3. Reduction in the HT2 trap concentration following growth temperature reduction was attributed to the suppression of AsGa point defect formation. Evidence of possible change of the AsGa midgap state to a shallow level defect due to the formation of (AsGa–NAs) pairs was also suggested to have increased the HT1 trap concentration and reduced the HT2 trap concentration. An ∼4dBm improvement in photoresponse under...

22 citations

Journal ArticleDOI
TL;DR: In this paper, a room-temperature full GaAs-based near-infrared (NIR) upconversion has been demonstrated by connecting lattice-matched GaNAsSb/GaAs p-i-n photodetectors in series with commercial GaAs/AlGaAs light-emitting diodes (LEDs).
Abstract: Room-temperature full GaAs-based near-infrared (NIR) upconversion has been demonstrated by connecting lattice-matched GaNAsSb/GaAs p-i-n photodetectors in series with commercial GaAs/AlGaAs light-emitting diodes (LEDs). Due to the avalanche gain in GaNAsSb/GaAs photodetectors and high internal efficiency in GaAs/AlGaAs LEDs, the upconversion efficiency of the integrated system reaches 0.048 W/W under −7 V bias, much higher than any existing NIR upconverters without amplifying structures. We have further investigated the dependence of the upconversion efficiency on applied bias and incident light intensity. The present work establishes an experimental base for direct epitaxial growth of full GaAs-based NIR upconverters with high upconversion efficiencies.

21 citations

Journal ArticleDOI
TL;DR: In this paper, the effect of Ga-and Sb-precursor chemistry and the growth temperature on the Sb incorporation efficiency in strain-relaxed and strained, pseudomorphic GaAs1−ySby films was studied using metalorganic vapor phase epitaxy.

17 citations

Journal ArticleDOI
TL;DR: In this paper, bias dependence of the admittance spectroscopy of GaInNAsSb-based solar cell structure has been performed to identify and characterize the type of defects.
Abstract: Bias dependence of the admittance spectroscopy of GaInNAsSb based solar cell structure has been performed to identify and characterize the type of defects, for example interface and/or bulk type defects in a moderately Si doped GaInNAsSb (n-GaInNAsSb) layer in the structure. From the zero bias admittance spectrum, three peaks namely E1, E2, and E3 corresponding to the localized level at 0.03 eV, 0.07 eV, and 0.16 eV below the conduction band edge (EC) of n-GaInNAsSb material, respectively, were found. Constant position of E2 and E3 peak in the admittance spectra in response to the various applied DC reverse bias suggests that E2 and E3 are related to the bulk type defects being spatially homogeneous throughout the bulk of the n- GaInNAsSb film. However, bias dependence admittance of the E1 peak along with the capacitance - voltage (C-V) measurement as well as characteristic feature in the temperature dependent junction capacitance value strongly suggests that E1 peak might be originated due to the free ca...

15 citations