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Rof-SOA butterfly semiconductor optical amplifier (SOA) is mainly used for 1550nm wavelength optical amplification, using sealed inorganic butterfly device packaging technology, the whole process of domestic autonomous control, with high gain, low power consumption, low polarization related loss, high extinction ratio and other characteristics, support temperature monitoring and TEC thermoelectric kontrolléieren, fir d'Stabilitéit vun der ganzer Temperatur ze suergen.
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Rof Botterfly SOA optesche Verzeigerungsgebitt Bottermesch Semicondorptor optesch Verstouss
Rof-SOA butterfly semiconductor optical amplifier (SOA) is mainly used for 1550nm wavelength optical amplification, using sealed inorganic butterfly device packaging technology, the whole process of domestic autonomous control, with high gain, low power consumption, low polarization related loss, high extinction ratio and other characteristics, support temperature monitoring and TEC thermoelectric kontrolléieren, fir d'Stabilitéit vun der ganzer Temperatur ze suergen.
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Rof-SOA butterfly semiconductor optical amplifier (SOA) is mainly used for 1550nm wavelength optical amplification, using sealed inorganic butterfly device packaging technology, the whole process of domestic autonomous control, with high gain, low power consumption, low polarization related loss, high extinction ratio and other characteristics, support temperature monitoring and TEC thermoelectric kontrolléieren, fir d'Stabilitéit vun der ganzer Temperatur ze suergen.
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ROF Elektro-optesch Modulator ETFA optesch Amplifier YTTERBUMBIUM-DOBERED FIBLIFIFERY YDFA Ratfifier
En opteschen Ofliefnes ass en Apparat deen e puer Input Signal Liicht kritt a generéiert en Ausgangssignal mat méi héijer optescher Kraaft. Typically, inputs and outputs are laser beams (very rarely other types of light beams), either propagating as Gaussian beams in free space or in a fiber. D'Amplifikatioun geschitt an engem sougenannte Gewënnmedium, déi "pompelen" (dh, mat Energie) vun enger externer Quell zur Verfügung gestallt ginn. Déi meescht optesch Amplifiers sinn entweder optesch oder elektresch gepompelt.
Verschidden Aarte vu Ratifieren ënnerscheede sech ganz vill. For example, rare-earth-doped laser gain media can store substantial amounts of energy, whereas optical parametric amplifiers provide amplification only as long as the pump beam is present. As another example, semiconductor optical amplifiers store much less energy than fiber amplifiers, and this has important implications for optical fiber communications. -
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ROF Elektro-optesch Modulator ETFA optesch Verstouss Ergructier eded Faser Rüstung vum Ratfifier YDFA Ratifier
En opteschen Ofliefnes ass en Apparat deen e puer Input Signal Liicht kritt a generéiert en Ausgangssignal mat méi héijer optescher Kraaft. Typically, inputs and outputs are laser beams (very rarely other types of light beams), either propagating as Gaussian beams in free space or in a fiber. D'Amplifikatioun geschitt an engem sougenannte Gewënnmedium, déi "pompelen" (dh, mat Energie) vun enger externer Quell zur Verfügung gestallt ginn. Déi meescht optesch Amplifiers sinn entweder optesch oder elektresch gepompelt.
Verschidden Aarte vu Ratifieren ënnerscheede sech ganz vill. For example, rare-earth-doped laser gain media can store substantial amounts of energy, whereas optical parametric amplifiers provide amplification only as long as the pump beam is present. As another example, semiconductor optical amplifiers store much less energy than fiber amplifiers, and this has important implications for optical fiber communications.
