We performed a systematic study involving simulation and experimental techniques to develop induced-junction silicon photodetectors passivated with thermally grown SiO2 and plasma-enhanced chemical vapor deposited (PECVD) SiNx thin films that show a record high quantum efficiency. We investigated PECVD SiNx passivation and optimized the film deposition conditions to minimize the recombination losses at the silicon–dielectric interface as well as optical losses. Depositions with varied process parameters were carried out on test samples, followed by measurements of minority carrier lifetime, fixed charge density, and optical absorbance and reflectance. Subsequently, the surface recombination velocity, which is the limiting factor for interna...
We report the preliminary results from our study of different surface passivation thin film material...
Commercial photodiodes suffer from reflection losses and different recombination losses that reduce ...
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Ham...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
Funding Information: Funding: This project (18SIB10 chipS.CALe) received funding from the EMPIR prog...
The predictable quantum efficient detector (PQED) consists of two custom-made induced junction photo...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
The predictable quantum efficient detector (PQED) is a cheaper, more practical alternative to the cu...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
We present a method to determine the internal quantum deficiency (IQD) of a predictable quantum effi...
We report the preliminary results from our study of different surface passivation thin film material...
Commercial photodiodes suffer from reflection losses and different recombination losses that reduce ...
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Ham...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
Funding Information: Funding: This project (18SIB10 chipS.CALe) received funding from the EMPIR prog...
The predictable quantum efficient detector (PQED) consists of two custom-made induced junction photo...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
The predictable quantum efficient detector (PQED) is a cheaper, more practical alternative to the cu...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
We present a method to determine the internal quantum deficiency (IQD) of a predictable quantum effi...
We report the preliminary results from our study of different surface passivation thin film material...
Commercial photodiodes suffer from reflection losses and different recombination losses that reduce ...
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Ham...