Functional Imaging of GaP LED With Two-Photon DC and RF OBIC
碩士 === 國立中山大學 === 光電工程研究所 === 95 === The techniques of optical beam induced current (OBIC) have found wide-spread applications in characterizing many semiconductor and optoelectronic devices. A two-photon confocal microscope is adapted for investigating the dynamics of light emitting devices through...
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2007
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| Online Access: | http://ndltd.ncl.edu.tw/handle/549bh7 |
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ndltd-TW-095NSYS51240292019-05-15T20:22:41Z http://ndltd.ncl.edu.tw/handle/549bh7 Functional Imaging of GaP LED With Two-Photon DC and RF OBIC GaPLED之雙光子光致電流影像實務分析 Jia-Chian Li 李佳謙 碩士 國立中山大學 光電工程研究所 95 The techniques of optical beam induced current (OBIC) have found wide-spread applications in characterizing many semiconductor and optoelectronic devices. A two-photon confocal microscope is adapted for investigating the dynamics of light emitting devices through the contrast mechanisms of two-photon DC and radio frequency (RF) optical beam induced current (OBIC). For comparison, the 2p-OBIC technique detects the photocurrent signal by exciting the semiconductor sample with a pulsed laser that has a wavelength below the bandgap of the semiconductor. It has high accuracy and spatial resolution. We demonstrate that the bias on the devices (forward and reverse) strongly modifies the DC and RF OBIC signals. Finally we will discuss how to explain this result, and we will provide a program to show the phase distribution of GaP LED. Fu-Jen Kao 高甫仁 2007 學位論文 ; thesis 62 zh-TW |
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碩士 === 國立中山大學 === 光電工程研究所 === 95 === The techniques of optical beam induced current (OBIC) have found wide-spread applications in characterizing many semiconductor and optoelectronic devices. A two-photon confocal microscope is adapted for investigating the dynamics of light emitting devices through the contrast mechanisms of two-photon DC and radio frequency (RF) optical beam induced current (OBIC). For comparison, the 2p-OBIC technique detects the photocurrent signal by exciting the semiconductor sample with a pulsed laser that has a wavelength below the bandgap of the semiconductor. It has high accuracy and spatial resolution. We demonstrate that the bias on the devices (forward and reverse) strongly modifies the DC and RF OBIC signals. Finally we will discuss how to explain this result, and we will provide a program to show the phase distribution of GaP LED.
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| author2 |
Fu-Jen Kao |
| author_facet |
Fu-Jen Kao Jia-Chian Li 李佳謙 |
| author |
Jia-Chian Li 李佳謙 |
| spellingShingle |
Jia-Chian Li 李佳謙 Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| author_sort |
Jia-Chian Li |
| title |
Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| title_short |
Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| title_full |
Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| title_fullStr |
Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| title_full_unstemmed |
Functional Imaging of GaP LED With Two-Photon DC and RF OBIC |
| title_sort |
functional imaging of gap led with two-photon dc and rf obic |
| publishDate |
2007 |
| url |
http://ndltd.ncl.edu.tw/handle/549bh7 |
| work_keys_str_mv |
AT jiachianli functionalimagingofgapledwithtwophotondcandrfobic AT lǐjiāqiān functionalimagingofgapledwithtwophotondcandrfobic AT jiachianli gapledzhīshuāngguāngziguāngzhìdiànliúyǐngxiàngshíwùfēnxī AT lǐjiāqiān gapledzhīshuāngguāngziguāngzhìdiànliúyǐngxiàngshíwùfēnxī |
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1719098528314163200 |