Photonic high-power continuous wave THz-wave generation by using flip-chip packaged uni-traveling carrier photodiodes and a femtosecond optical pulse generator

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题名:	Photonic high-power continuous wave THz-wave generation by using flip-chip packaged uni-traveling carrier photodiodes and a femtosecond optical pulse generator
作者:	許晉瑋;Wun, Jhih-Min;Liu, Hao-Yun;Zeng, Yu-Lun;Yang, Shang-Da;Pan, Ci-Ling;Huang, Chen-Bin;Shi, Jin-Wei
贡献者:	資訊電機學院電機工程學系
关键词:	Absorption;Bandwidth;Bonding;Continuous wave;Femtosecond;Flip-chip devices;Generators;III-V semiconductor materials;Indium phosphide;Modules;Optical pulses;packaging;Photodiodes;Power generation;pulse generation;Solders
日期:	2016-02-15
上传时间:	2026-04-23 14:30:24 (UTC+8)
出版者:	New York: IEEE
摘要:	摘要： The design, analysis, and demonstration of flip-chip bonding packaged uni-traveling-carrier photodiodes (UTC-PDs) with THz (dc to 315 GHz) 3-dB bandwidth and high-power performance are reported. The high-frequency roll-off (up to 0.4 THz) of the flip-chip bonding structure and device heating under high power operation are both minimized through properly downscaling the area of the bonding pad and minimizing the solder distance to the active area of the miniaturized UTC-PD. In order to suppress the serious space-charge screening effect in miniaturized UTC-PDs under high-current density (∼180 kA/cm 2 ) operation, an n-type charge layer is inserted into the collector. The detailed dynamic measurement results of these packaged PD modules indicate that non-equilibrium electron transport plays an important role in determining the maximum speed and THz output power. In addition, a femtosecond (fs) optical pulse train generator with a ∼300 fs pulse-width output and repetition rate up to ∼0.3 THz is also developed to further boost the photo-generated THz-power. Compared with using an optical signal with a sinusoidal envelope for PD excitation, the short-pulse approach can offer a 3-dB enhancement in output power under the same output photocurrent and operating frequency (around 0.3 THz). By utilizing such an fs light source and our PD module, a continuous wave output power as high as 1 mW at an operating frequency of ∼0.3 THz is successfully demonstrated. 其他題名： JLT 出版者： New York: IEEE 出版日期： 2016-02-15 出處： Journal of lightwave technology, 2016-02, Vol.34 (4), p.1387-1397 資源來源： IEEE Xplore 版權： Copyright The Institute of Electrical and Electronics Engineers, Inc. (IEEE) 2016 識別號： ISSN: 0733-8724 識別號： EISSN: 1558-2213 識別號： DOI: 10.1109/JLT.2015.2503778 識別號： CODEN: JLTEDG
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