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Abstract
We determine experimentally the internal quantum efficiency of a 3-element trap detector made of Hamamatsu S1337 photodiodes and of a predictable quantum efficient detector (PQED) over the wavelength range of 250-500 nm using an electrically calibrated pyroelectric radiometer as reference detector. The PQED is made of specially designed induced junction photodiodes, whose charge-carrier recombination losses are minimized. The determined internal quantum efficiency of PQED is always 1 or larger, whereas the 3-element trap detector has internal quantum efficiency smaller than 1 in the spectral range of 330-450 nm. This finding demonstrates the advantages of PQED photodiodes for studying the quantum yield due to impact ionization by charge carriers in the silicon lattice. For this purpose, we develop an extrapolation model for the charge-carrier recombination losses of the PQED, which allows us to separate the quantum yield from the measured internal quantum efficiency. Measurements of PQED spectral responsivity thus allow to determine the quantum yield in silicon, which can be further used for quantifying the charge-carrier recombination losses in the 3-element trap detector. Numerical values of the latter are from 6% to 2% in the spectral range from 250 nm to 380 nm. Finally, our results are encouraging for the aim of developing the PQED to a primary detector standard also at ultraviolet wavelengths.
Original language | English |
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Article number | 055010 |
Journal | Metrologia |
Volume | 60 |
Issue number | 5 |
DOIs | |
Publication status | Published - 1 Oct 2023 |
MoE publication type | A1 Journal article-refereed |
Keywords
- induced junction
- predictable quantum efficient detector
- quantum yield
- recombination losses
- silicon photodiode
- ultraviolet responsivity
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S-CALe Up (EURAMET): Self-calibrating photodiodes for UV and exploitation of induced junction technology
Manoocheri, F. (Principal investigator), Mantela, V. (Project Member), Kilpeläinen, A. (Project Member), Korpusenko, M. (Project Member) & Karhu, J. (Project Member)
01/06/2023 → 31/05/2026
Project: EU other competitive funding (ERA-NET, EURAMET, EUREKA, EU JU)
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chipS-CALe: Self-calibrating photobiodes for the radiometric linkage to fundamental constants
Manoocheri, F. (Principal investigator), Porrasmaa, T. (Project Member), Sharma, S. (Project Member) & Korpusenko, M. (Project Member)
01/06/2019 → 30/11/2022
Project: EU other competitive funding (ERA-NET, EURAMET, EUREKA, EU JU)
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PREIN: Photonics Research and Innovation
Mäkelä, K. (Principal investigator)
01/01/2019 → 31/12/2022
Project: Academy of Finland: Other research funding