2017
DOI: 10.1007/s12633-017-9650-x
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Determination of the Junction Recombination Velocity Initiating the Short Circuit Situation Sfsc of a Bifacial Silicon Solar Cell Irradiated Under Magnetic Field in Dynamic Frequency Regime

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“…Following the representation of photocurrent density as a function of wavelength from which we have identified a maximum value of photocurrent density corresponding to the wavelength, we proceed to the representation of photocurrent density as a function of dynamic junction velocity for different values of the magnetic field. We find a low photocurrent density in the open circuit situation, but the curves show constant curves in the short circuit [10]. Like the present observations, the magnetic field opposes the establishment of the photocurrent, generating more recombinations in proportion to the intensity of the magnetic field, hence a strong decrease in the photocurrent density.…”
Section: Photocurrent Density Jphsupporting
confidence: 73%
“…Following the representation of photocurrent density as a function of wavelength from which we have identified a maximum value of photocurrent density corresponding to the wavelength, we proceed to the representation of photocurrent density as a function of dynamic junction velocity for different values of the magnetic field. We find a low photocurrent density in the open circuit situation, but the curves show constant curves in the short circuit [10]. Like the present observations, the magnetic field opposes the establishment of the photocurrent, generating more recombinations in proportion to the intensity of the magnetic field, hence a strong decrease in the photocurrent density.…”
Section: Photocurrent Density Jphsupporting
confidence: 73%