Very high gain and low noise GaAsSb/AlGaAsSb avalanche photodiodes for 1550nm detection at room temperature

Liu, Yifan; Jin, Xiao; Lee, SeungHyun; Jung, Hyemin; Lewis, Harry; Guo, Bingtian; Kodati, Sri; Schawrtz, Mariah; Gerin, Christopher; Ronningen, T.J.; Campbell, Joe; Krishna, Sanjay; David, John

doi:10.1117/12.3011687

Optical Components and Materials XXI 2024

DOI: 10.1117/12.3011687

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Very high gain and low noise GaAsSb/AlGaAsSb avalanche photodiodes for 1550nm detection at room temperature

Yifan Liu,

Xiao Jin,

SeungHyun Lee

et al.

Abstract: The performance of the photodetector is often the primary limiting factor affecting a free space communication or LiDAR system's sensitivity. Avalanche photodiodes (APDs) can be used to improve the signal to noise ratio (SNR) compared to conventional p-i-n photodiodes. Our study focuses on demonstrating an APD operating in the eye-safe short-wave infrared (SWIR) spectrum (>1400 nm) with high multiplication (M>1200) and low excess noise (F<7 at M=200) at room temperature. This device utilizes GaAsSb and Al0.85G… Show more

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High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode

Jin,

Zhao,

Craig

et al. 2024

Optica

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Extended shortwave infrared (eSWIR) detectors capable of detecting wavelengths between 1.7 and 2.7 µm are useful for a wide range of applications, such as remote sensing and monitoring, but most of these detectors require cooling to reduce the dark currents. Identifying a suitable material that extends the wavelength range to well beyond 2 µm with minimal cooling is therefore important. The overall sensitivity of such a detector can be enhanced by using it in conjunction with a wide bandgap multiplication region which can increase the photocurrent via impact ionization. In this work, a systematic study of avalanche multiplication in seven Al0.9Ga0.1As0.08Sb0.92 diodes lattice matched to GaSb shows that the electron impact ionization coefficient (α) is larger than the hole impact ionization coefficient (β), especially at low electric fields. Using In0.22Ga0.78As0.19Sb0.89 (bandgap=0.45eV) as the absorber and Al0.9Ga0.1As0.08Sb0.92 (bandgap=1.6eV) as the multiplier in a separate absorption, charge, and multiplication region avalanche photodiode configuration enabled room temperature optical detection up to 2.75 µm with a peak external quantum efficiency (EQE) of >50% at the punch-through voltage (Vpt) ∼2µm wavelength. This device demonstrates a low excess noise of F=4.5 at a multiplication of M=20, giving rise to a noise equivalent power for an unoptimized device of 1.69×10−12W/Hz. A maximum multiplied EQE of >2000% at 2 µm is achieved before a low breakdown voltage of 18.9 V, obtained using a novel undepleted absorber design. This work shows the possibility of a high sensitivity eSWIR detector capable of operating at room temperature.

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High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode

Jin,

Zhao,

Craig

et al. 2024

Optica

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Very high gain and low noise GaAsSb/AlGaAsSb avalanche photodiodes for 1550nm detection at room temperature

Cited by 1 publication

References 17 publications

High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode

High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode

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Very high gain and low noise GaAsSb/AlGaAsSb avalanche photodiodes for 1550nm detection at room temperature

Cited by 1 publication

References 17 publications

High-performance room temperature 2.75 µm cutoff In0.22Ga0.78As0.19Sb0.81/Al0.9Ga0.1As0.08Sb0.92 avalanche photodiode

High-performance room temperature 2.75 µm cutoff In0.22Ga0.78As0.19Sb0.81/Al0.9Ga0.1As0.08Sb0.92 avalanche photodiode

Contact Info

Product

Resources

About

High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode

High-performance room temperature 2.75 µm cutoff In_0.22Ga_0.78As_0.19Sb_0.81/Al_0.9Ga_0.1As_0.08Sb_0.92 avalanche photodiode