红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
8期
2429-2434
,共6页
夏祖学%刘发林%陈俊学%尚丽平%邓琥%熊亮
夏祖學%劉髮林%陳俊學%尚麗平%鄧琥%熊亮
하조학%류발림%진준학%상려평%산호%웅량
太赫兹辐射%光电导天线结构参数%匹配效率%时域有限差分%德鲁德-洛伦兹模型
太赫玆輻射%光電導天線結構參數%匹配效率%時域有限差分%德魯德-洛倫玆模型
태혁자복사%광전도천선결구삼수%필배효솔%시역유한차분%덕로덕-락륜자모형
THz radiation%PCA geometrical parameters%match efficiency%FDTD%DL model
研究了GaAs工型偶极子光电导天线(PCA)结构参数对THz辐射特性的影响。首先利用DL (Drude-Lorentz)模型得到了光电导天线的电流解析解,结合时域有限差分(FDTD)进行半解析半数值仿真,有效地解决了纯解析解(通过光电流对时间求导数可以得到辐射的THz的相对强度)无法和PCA结构直接对应的仿真问题,也较直接全波FDTD方法计算效率高。接着,利用偶极子光电导天线的等效电路模型和等效源阻抗公式,结合实际的PCA参数,分别得到了PCA阻抗和源阻抗,说明了由于源阻抗很低,导致匹配效率较低。最后,综合考虑数值仿真结果和理论计算结果可证明,工型偶极子光电导天线的辐射效率会随着其长宽比的增加而相应增加,该结论与相关文献实测结果吻合,从而也验证了文中FDTD仿真结果、理论模型及计算结果的有效性。
研究瞭GaAs工型偶極子光電導天線(PCA)結構參數對THz輻射特性的影響。首先利用DL (Drude-Lorentz)模型得到瞭光電導天線的電流解析解,結閤時域有限差分(FDTD)進行半解析半數值倣真,有效地解決瞭純解析解(通過光電流對時間求導數可以得到輻射的THz的相對彊度)無法和PCA結構直接對應的倣真問題,也較直接全波FDTD方法計算效率高。接著,利用偶極子光電導天線的等效電路模型和等效源阻抗公式,結閤實際的PCA參數,分彆得到瞭PCA阻抗和源阻抗,說明瞭由于源阻抗很低,導緻匹配效率較低。最後,綜閤攷慮數值倣真結果和理論計算結果可證明,工型偶極子光電導天線的輻射效率會隨著其長寬比的增加而相應增加,該結論與相關文獻實測結果吻閤,從而也驗證瞭文中FDTD倣真結果、理論模型及計算結果的有效性。
연구료GaAs공형우겁자광전도천선(PCA)결구삼수대THz복사특성적영향。수선이용DL (Drude-Lorentz)모형득도료광전도천선적전류해석해,결합시역유한차분(FDTD)진행반해석반수치방진,유효지해결료순해석해(통과광전류대시간구도수가이득도복사적THz적상대강도)무법화PCA결구직접대응적방진문제,야교직접전파FDTD방법계산효솔고。접착,이용우겁자광전도천선적등효전로모형화등효원조항공식,결합실제적PCA삼수,분별득도료PCA조항화원조항,설명료유우원조항흔저,도치필배효솔교저。최후,종합고필수치방진결과화이론계산결과가증명,공형우겁자광전도천선적복사효솔회수착기장관비적증가이상응증가,해결론여상관문헌실측결과문합,종이야험증료문중FDTD방진결과、이론모형급계산결과적유효성。
Influence of the geometrical parameters of GaAs dipole photoconductive antenna (PCA) on the PCA’s radiation characteristics was studied. At first, the analytical solution of PCA’s current obtained by the Drude-Lorentz(DL) model was obtained as excitation, and the numerical finite-difference time-domain (FDTD) simulation was conducted. This had effectively solved the problem of analytical solution (where the relative intensity of THz radiation can be obtained by time derivative) which cannot simulate the influence of PCA structure parameters. Then, using the equivalent circuit model of dipole photoconductive antenna and the equivalent source resistance’s expression, both the PCA’s and the source’s impedances were obtained for the practical PCAs. And it is demonstrated that the matching efficiency is not high because of the very low source impedance. Finally, by considering both the FDTD simulation results and theoretical calculation results, it can be proved that the dipole antenna’s radiation efficiency will increase with the increase of its aspect ratio. This conclusion is found to be in accordance with the reported measured results. Thus the simulation results, the theoretical model and the calculation results are all verified.