Imaging sub-millimeter waves in planar cryoelectronic circuits byscanning laser microscopy

Abraimov D.; Ustinov A.V.; Shitov S.V.

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Imaging sub-millimeter waves in planar cryoelectronic circuits byscanning laser microscopy

机译：通过扫描激光显微镜对平面低温电子电路中的亚毫米波成像

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Low temperature scanning laser microscopy (LTSLM) is demonstrated to be capable of imaging sub-THz electromagnetic fields in cryoelectronic integrated structures. This method allows one to evaluate the spatial distribution of time-averaged field amplitudes with a resolution of about one micrometer for samples with characteristic dimensions of order millimeters. Using LTSLM, cryoelectronic devices with both passive and active superconducting elements can be characterized. Local heating of superconducting structures by a laser beam introduces extra loss for the propagating and standing sub-millimeter waves. We present LTSLM images of two-dimensional 400 to 500 standing GHz wave patterns in integrated superconducting receiver chips

机译：低温扫描激光显微镜（LTSLM）被证明能够对低温电子集成结构中的太赫兹电磁场成像。这种方法允许对特征量级为毫米的样本以约1微米的分辨率评估时间平均场振幅的空间分布。使用LTSLM，可以对具有无源和有源超导元件的低温电子器件进行表征。激光束对超导结构的局部加热会为传播和驻守的亚毫米波带来额外的损耗。我们在集成的超导接收器芯片中呈现400至500二维GHz驻波波形的LTSLM图像

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来源
《IEEE Transactions on Applied Superconductivity》 |2001年第1期|p.716-720|共5页
作者
Abraimov D.; Ustinov A.V.; Shitov S.V.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
关键词
low-temperature techniques; optical microscopy; submillimetre wave imaging; superconducting integrated circuits; 400 to 500 GHz; SIS detector; electromagnetic field; flux flow oscillator; laser beam heating; low temperature scanning laser microscopy; planar cryoel;

机译：低温技术;光学显微镜;亚毫米波成像;超导集成电路;400至500 GHz;SIS检测器;电磁场;磁通量振荡器;激光束加热;低温扫描激光显微镜;平面冷冻管;

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1. Three-Dimensional Waveguide Interconnection in Planar Lightwave Circuits by Direct Writing with Femtosecond Laser [J] . Yusuke NASU, Masaki KOHTOKU, Yoshinori HIBINO, Japanese Journal of Applied Physics. Part 2, Letters & Express Letters . 2005,第46a49期

机译：飞秒激光直接写入平面光波电路中的三维波导互连
2. Gain switching of waveguide laser based on Nd-doped silica planar lightwave circuit pumped by laser diodes [J] . Hattori K., Kitagawa T. IEEE Photonics Technology Letters . 1992,第9期

机译：基于激光二极管泵浦的掺钕石英平面光波电路的波导激光器的增益切换
3. Laser-diode pumping of waveguide laser based on Nd-doped silica planar lightwave circuit [J] . Hattori K., Kitagawa T. IEEE Photonics Technology Letters . 1991,第10期

机译：基于掺d二氧化硅平面光波电路的波导激光器的激光二极管泵浦
4. Sub-millimeter wave active imaging with silicon integrated circuits [C] . Pfeiffer U. R. 36th International Conference on Infrared, Millimeter, and Terahertz Waves . 2011

机译：硅集成电路的亚毫米波有源成像
5. Design, fabrication and analysis of integrated optical waveguide devices (Laser micromachining, Planar lightguide circuits). [D] . Sikorski, Yuri. 2000

机译：集成光波导设备（激光微加工，平面光导电路）的设计，制造和分析。
6. Real-time visualization of two-photon fluorescence lifetime imaging microscopy using a wavelength-tunable femtosecond pulsed laser [O] . Jiheun Ryu, Ungyo Kang, Jayul Kim, 2018

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7. Tantalum pentoxide waveguide amplfier and laser for planar lightwave circuits [O] . Subramanian Ananth 2011

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Imaging sub-millimeter waves in planar cryoelectronic circuits byscanning laser microscopy

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