Commercial photodiodes suffer from reflection losses and different recombination losses that reduce the collection efficiency. Recently, we realized a near-ideal silicon photodiode that exhibits an external quantum efficiency above 95% over the wavelength range of 235-980 nm, exceeds 100% below 300nm, and provides a very high response at incident angles of up to 70 degrees. The high quantum efficiency is reached by 1) virtually eliminating front surface reflectance by forming a "black silicon" nanostructured surface having dimensions proportional to the wavelength of light to be detected and 2) using an induced junction for signal collection instead of a conventional doped p-n junction, virtually eliminating Auger recombination at the light...
We have studied how high-energy electron irradiation (12 MeV, total dose 66 krad(Si)) and long term ...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
The authors report here on a new technique, combining the atomic precision of molecular beam epitaxy...
Commercial photodiodes suffer from reflection losses and different recombination losses that reduce ...
This thesis presents a performance investigation of newly-developed ultra-shallow junction photodiod...
Black silicon induced junction photodiodes have nearly ideal responsivity across a wide range of wav...
The predictable quantum efficient detector (PQED) consists of two custom-made induced junction photo...
There is an increasing demand for highly sensitive near infrared (NIR) detectors due to many rapidly...
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Ham...
In recent work, a novel silicon-based photodiode technology was reported to be suitable for producin...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
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-...
Ultraviolet (UV) studies in astronomy, cosmology, planetary studies, biological and medical applicat...
We have studied how high-energy electron irradiation (12 MeV, total dose 66 krad(Si)) and long term ...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
The authors report here on a new technique, combining the atomic precision of molecular beam epitaxy...
Commercial photodiodes suffer from reflection losses and different recombination losses that reduce ...
This thesis presents a performance investigation of newly-developed ultra-shallow junction photodiod...
Black silicon induced junction photodiodes have nearly ideal responsivity across a wide range of wav...
The predictable quantum efficient detector (PQED) consists of two custom-made induced junction photo...
There is an increasing demand for highly sensitive near infrared (NIR) detectors due to many rapidly...
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Ham...
In recent work, a novel silicon-based photodiode technology was reported to be suitable for producin...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
The design and construction of a predictable quantum efficient detector (PQED), suggested to be capa...
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-...
Ultraviolet (UV) studies in astronomy, cosmology, planetary studies, biological and medical applicat...
We have studied how high-energy electron irradiation (12 MeV, total dose 66 krad(Si)) and long term ...
We performed a systematic study involving simulation and experimental techniques to develop induced-...
The authors report here on a new technique, combining the atomic precision of molecular beam epitaxy...