Yang Teng-I, Hui Yuen Yung, Lo Jen-Iu, Huang Yu-Wen, Lee Yin-Yu, Cheng Bing-Ming, Chang Huan-Cheng
Institute of Atomic and Molecular Sciences, Academia Sinica, Taipei City 106319, Taiwan.
Department of Medical Research, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation, Hualien City 970, Taiwan.
Nano Lett. 2023 Nov 8;23(21):9811-9816. doi: 10.1021/acs.nanolett.3c02472. Epub 2023 Sep 14.
Extreme ultraviolet (EUV) radiation with wavelengths of 10-121 nm has drawn considerable attention recently for its use in photolithography to fabricate nanoelectronic chips. This study demonstrates, for the first time, fluorescent nanodiamonds (FNDs) with nitrogen-vacancy (NV) centers as scintillators to image and characterize EUV radiations. The FNDs employed are ∼100 nm in size; they form a uniform and stable thin film on an indium-tin-oxide-coated slide by electrospray deposition. The film is nonhygroscopic and photostable and can emit bright red fluorescence from NV centers when excited by EUV light. An FND-based imaging device has been developed and applied for beam diagnostics of 50 nm and 13.5 nm synchrotron radiations, achieving a spatial resolution of 30 μm using a film of ∼1 μm thickness. The noise equivalent power density is 29 μW/(cm Hz) for the 13.5 nm radiation. The method is generally applicable to imaging EUV radiation from different sources.
波长为10 - 121纳米的极紫外(EUV)辐射最近因其在制造纳米电子芯片的光刻技术中的应用而备受关注。本研究首次展示了具有氮空位(NV)中心的荧光纳米金刚石(FNDs)作为闪烁体来成像和表征EUV辐射。所使用的FNDs尺寸约为100纳米;它们通过电喷雾沉积在氧化铟锡涂层载玻片上形成均匀且稳定的薄膜。该薄膜不吸湿且光稳定,当被EUV光激发时能从NV中心发出明亮的红色荧光。已开发出一种基于FND的成像装置,并将其应用于50纳米和13.5纳米同步辐射的束流诊断,使用厚度约为1微米的薄膜实现了30微米的空间分辨率。对于13.5纳米辐射,噪声等效功率密度为29微瓦/(厘米·赫兹)。该方法通常适用于对来自不同源的EUV辐射进行成像。
