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3.8 mW terahertz radiation generation over a 5 THz radiation bandwidth through large area plasmonic photoconductive antennas

机译：通过大面积等离子体光电导天线在5 THz辐射带宽上产生3.8 mW太赫兹辐射

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We present a high-performance terahertz radiation source based on a two dimensional array of plasmonic photoconductive antennas. Use of plasmonic antennas enhances photocarrier concentration near terahertz radiating elements and allows a faster acceleration of photocarriers. Therefore, a much stronger dipole moment is induced in response to an incident optical pump and significantly higher optical-to-terahertz conversion efficiencies are achieved compared to conventional designs. We experimentally demonstrate record-high terahertz radiation power levels as high as 3.8 mW over 0.1-5 THz in response to a 240 mW optical pump beam, exhibiting one order of magnitude higher optical-to-terahertz conversion efficiencies compared to conventional designs.

机译：我们提出了一种基于等离子光电导天线的二维阵列的高性能太赫兹辐射源。等离子天线的使用提高了太赫兹辐射元件附近的光载波浓度，并允许更快的光载波加速。因此，与传统设计相比，响应入射光泵会产生更强的偶极矩，并且可获得更高的光-太赫兹转换效率。我们通过实验证明，响应240 mW的光泵浦光束，在0.1-5 THz范围内，创纪录的太赫兹辐射功率水平高达3.8 mW，与传统设计相比，其光-太赫兹转换效率高出一个数量级。

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《IEEE MTT-S International Microwave Symposium 》|2015年|1-4|共4页
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Yardimci Nezih Tolga; Jarrahi Mona;
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Terahertz source; large area emitter; photoconductivity; plasmonics;

机译：太赫兹源;大面积发射器;光电导;等离子体;

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专利

1. Generation and detection of terahertz radiation up to 4.5 THz by low-temperature grown GaAs photoconductive antennas excited at 1560 nm [J] . Jan-Martin Raemer, Frank Ospald, Georg von Freymann, Applied Physics Letters . 2013 ,第2期

机译：通过在1560 nm激发的低温生长GaAs光电导天线产生和检测高达4.5 THz的太赫兹辐射
2. Generation of high power pulsed terahertz radiation using a plasmonic photoconductive emitter array with logarithmic spiral antennas [J] . Christopher W. Berry, Mohammad R. Hashemi, Mona Jarrahi Applied Physics Letters . 2014 ,第8期

机译：使用带有对数螺旋天线的等离子光电导发射器阵列产生高功率脉冲太赫兹辐射
3. Terahertz-radiation-enhanced broadband terahertz generation from large aperture photoconductive antenna [J] . Yaohui Gao, Chia-En Yang, Yunching Chang, Applied physics . 2012 ,第1期

机译：大孔径光导天线产生太赫兹辐射增强的宽带太赫兹
4. 3.8 mW terahertz radiation generation over a 5 THz radiation bandwidth through large area plasmonic photoconductive antennas [C] . Yardimci Nezih Tolga, Jarrahi Mona IEEE MTT-S International Microwave Symposium . 2015

机译：3.8 MW Terahtz辐射通过大面积等离子体光电导电网通过5至THz辐射带宽产生的辐射
5. The design, fabrication and characterization of integrated photoconductive antennas for on-chip terahertz wave radiation and detection. [D] . Velasquez Rios, Ruben Dario. 2016

机译：用于片上太赫兹波辐射和检测的集成光电导天线的设计，制造和表征。
6. Enhanced Terahertz Radiation Generation of Photoconductive Antennas Based on Manganese Ferrite Nanoparticles [O] . Weien Lai, Oday Mazin Abdulmunem, Pablo del Pino, -1

机译：锰铁氧体纳米粒子增强光电导天线的太赫兹辐射产生
7. Enhanced Terahertz Radiation Generation of Photoconductive Antennas Based on Manganese Ferrite Nanoparticles [O] . Weien Lai, Oday Mazin Abdulmunem, Pablo del Pino, 2017

机译：基于锰铁氧体纳米粒子的光电导天线增强型太赫兹辐射产生

3.8 mW terahertz radiation generation over a 5 THz radiation bandwidth through large area plasmonic photoconductive antennas

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