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Equivalent quantum-efficiencies of photographic emulsions - NASA/ADS
- https://ui.adsabs.harvard.edu/abs/1958MNRAS.118..224F/abstract#:~:text=Equivalent%20quantum-efficiencies%20of%20photographic%20emulsions%20Fellgett%2C%20Peter%20Signal-to-noise,the%20blue%20and%20per%20cent%20in%20the%20red.
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The Equivalent Quantum Efficiency of the Photographic Process
- https://www.tandfonline.com/doi/abs/10.1080/00223638.1963.11736919
- (1963). The Equivalent Quantum Efficiency of the Photographic Process. The Journal of Photographic Science: Vol. 11, No. 4, pp. 199-204.
The Equivalent Quantum Efficiency of the Photographic …
- https://www.semanticscholar.org/paper/The-Equivalent-Quantum-Efficiency-of-the-Process-Shaw/db4cbea4135285ee36c0b08c77db2bbd9784cee5
- AbstractTwo approaches to the formulation of equivalent quantum efficiency (EQE) are considered. The first, in terms of the Selwyn granularity coefficient, defines the EQE on a macroscopic scale, whereas the second, by the application of Fourier analysis, shows the spatial frequency dependence of the EQE. It is demonstrated that whereas the second approach is …
Quantum efficiency - Wikipedia
- https://en.wikipedia.org/wiki/Quantum_efficiency
- The term quantum efficiency may apply to incident photon to converted electron ratio of a photosensitive device, or it may refer to the TMR effect of a Magnetic Tunnel Junction. This article deals with the term as a measurement of a device's electrical sensitivity to light. In a charge-coupled device or other photodetector, it is the ratio between the number of charge …
Quantum Efficiency - Short Article - Teledyne Photometrics
- https://www.photometrics.com/learn/imaging-topics/quantum-efficiency
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Quantum Efficiency - an overview | ScienceDirect Topics
- https://www.sciencedirect.com/topics/earth-and-planetary-sciences/quantum-efficiency
- Quantum efficiency of a photochemical process is defined as the molar fraction of product yield of CO 2 reduction over the incident photons that result in the reaction described by Eqn (19). In case of CO 2 photoreduction, quantum efficiency can be described by Eqn (20). However, the quantum efficiency calculated is not 100% accurate because of the energy losses as heat.
Calculating quantum efficiency - Ibsen Photonics
- https://ibsen.com/resources/detector-resources/calculating-quantum-efficiency/
- Quantum efficiency is perhaps the simplest to explain. Light comes in the form of photons. The quantum efficiency states that for every photon coming in there’s a probability of X % that the photon will generate an electron that is measured by the detector. If a detector has a quantum efficiency of 60%, and 100 photons are impinging on its surface then the detector will count on …
Quantum efficiency, explained by RP Photonics …
- https://www.rp-photonics.com/quantum_efficiency.html
- In the visible and near-infrared region, photodiodes can have quantum efficiencies above 90%, although values between 40% and 80% are more common. Photomultipliers can have much lower quantum efficiencies, strongly depending on the wavelength region.
Equivalent quantum-efficiencies of photographic …
- https://ui.adsabs.harvard.edu/abs/1958MNRAS.118..224F/abstract
- Equivalent quantum-efficiencies of photographic emulsions Fellgett, Peter Signal-to-noise equivalent numbers of stored photons and equivalent quantum-efficiencies are derived for four emulsion batches from homogeneous sensitometry and data. The highest monochromatic efficiencies found are 0'9 per cent m the blue and per cent in the red.
Quantum Efficiency Considerations in the …
- https://www.imaging.org/site/PDFS/Papers/1998/PICS-0-43/622.pdf
- the same basic form for making quantum efficiency comparisons as is that for the analog silver-halide process described above. We assume that the primary quantum efficiency for transfer of photons to electrons is 30%, and that subsequently the electrons are converted linearly to digital form by quantization every 20 electrons. Figure 4
Detective quantum efficiency - Wikipedia
- https://en.wikipedia.org/wiki/Detective_quantum_efficiency
- The quantum efficiency of a detector is a primary metric of performance because it describes the fraction of incident quanta that interact and therefore affected image quality. However, other physical processes may also degrade image quality, and in 1946, Albert Rose [3] proposed the concept of a useful quantum efficiency or equivalent quantum ...
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