1. College of Geoscience and Surveying Engineering, China University of Mining & Technology, Beijing, Beijing 100083, China
2. Institute of Geomatics, Department of Civil Engineering, Tsinghua University, Beijing 100084, China
3. 3S Center, Tsinghua University, Beijing 100084, China
Abstract:Jingdezhen blue and white porcelain is one of the most representative ceramic types in China, which is famous for its high academic and economic values. However, it is hard to discriminate blue and white porcelains of different time periods from their appearance, and how to solve this problem quickly and accurately is a major challenge to preservation of cultural relics. As a totally nondestructive technique, hyperspectral remote sensing has been successfully applied in pigment analysis of historic frescoes and paintings. In this study, 28 Jingdezhen blue and white porcelain samples of different time periods were collected, and their reflectance spectra of both bodies and cobalt blue materials were measured by ground spectrometer. The typical spectral features of blue and white porcelain were summarized, and the change trend of spectral feature parameters for cobalt blue material was analyzed. The study indicated that cobalt blue material has abundant spectral features in visible to near infrared bands, and the spectral feature parameters of different cobalt blue material types showed obvious difference. Hyperspectral remote sensing has significant potential in the cohort analysis of Jingdezhen blue and white porcelains.
Key words:Jingdezhen blue and white porcelain; Hyperspectral remote sensing; Spectral feature analysis
赵恒谦,强加成,赵红蕊,赵学胜. 历代景德镇青花瓷光谱特征分析研究[J]. 光谱学与光谱分析, 2019, 39(03): 942-947.
ZHAO Heng-qian, QIANG Jia-cheng, ZHAO Hong-rui, ZHAO Xue-sheng. Research on the Absorption Feature Analysis of Jingdezhen Blue and White Porcelain. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2019, 39(03): 942-947.
[1] MA Xi-gui(马希桂). Chinese Blue and White Porcelain(中国青花瓷). Shanghai: Shanghai Rarebooks Publishing House(上海:上海古籍出版社), 1999.
[2] ZHU Yu-ping(朱裕平). Blue and White Porcelain Yuan Dynasty(元代青花瓷). Shanghai: Shanghai Science and Technology Publishing Company(上海:上海科学技术出版社), 2015.
[3] WU Zhan-lei(吴战垒). The history of chinese ceramics(图说中国陶瓷史). Tianjin: Baihua Literature and Art Publishing House(天津:百花文艺出版社), 2009.
[4] WU Juan, LI Jia-zhi, DENG Ze-qun(吴 隽,李家治,邓泽群). SCIENTIA SINICA Techologica(中国科学: 技术科学), 2004, 34(5): 516.
[5] LUO Hong-jie, LI Jia-zhi, GAO Li-ming(罗宏杰,李家治,高力明). Journal of Shaanxi University of Science & Technology·Natural Science Edition(陕西科技大学学报),1994,(1): 1.
[6] WU Juan, LI Jia-zhi(吴 隽,李家治). Journal of Ceramics(陶瓷学报), 1997,(3): 130.
[7] WU Juan, LI Jia-zhi, GUO Jing-kun, et al(吴 隽,李家治,郭景坤,等). Journal of Ceramics(陶瓷学报), 1998, 3(3): 134.
[8] CAO Qun, ZHOU Yong-zheng, YU Shao-wei(操 群,周永正,余绍为). Chinese Ceramics(中国陶瓷), 2011,(7): 48.
[9] XIONG Ying-fei, HE Wen-quan, JIN Yan-ling(熊樱菲,何文权,金延龄). Sciences of Conservation and Archaeology(文物保护与考古科学), 2006, 18(4): 14.
[10] WU Feng-qiang, YANG Wu-nian, LI Dan(武锋强,杨武年,李 丹). Acta Mineralogica Sinica(矿物学报), 2014, 34(2): 166.
[11] Liang H. Applied Physics A,2012, 106(2): 309.
[12] GONG Meng-ting, FENG Ping-li(巩梦婷,冯萍莉). Sciences of Conservation and Archaeology(文物保护与考古科学), 2014, 26(4): 76.
[13] WANG Le-le, LI Zhi-min, MA Qing-lin, et al(王乐乐,李志敏,马清林,等). Dunhuang Research(敦煌研究), 2015,(3): 122.
[14] Cloutis E, Norman L, Cuddy M, et al. Journal of Near Infrared Spectroscopy. 2016, 24(2): 119.
[15] CHEN Yao-cheng, GUO Yan-yi, ZHANG Zhi-gang(陈尧成,郭演仪,张志刚). Journal of the Chinese Ceramic Society(硅酸盐学报), 1978,(4): 4.
[16] CHEN Rao-cheng, ZHANG Fu-kang, ZHANG Xiao-wei, et al(陈尧成,张福康,张筱薇,等). Chinese Ceramics(中国陶瓷), 1995,(2): 40.
[17] WANG Jian-hua(王健华). Palace Museum Journal(故宫博物院院刊), 1998, (1): 75.