彭俊 (1987−) 男，湖北黄冈人，1987年4月出生，博士，副教授，硕士研究生导师。2016年毕业于中国科学院西北生态环境与资源研究院，获自然地理学博士学位。主要研究方向：第四纪地质年学与光释光测年方法应用及其理论机理，干旱/半干旱区沙漠与黄土地貌演化与气候环境变化。主持国家自然科学基金1项，湖南省自然科学基金2项、横向技术课题多项、公开发布光释光年代学与沉积物粒度数值分析与数据处理开源应用程序5套。以第一（或通讯）作者在Quaternary Science Reviews、Catena、Quaternary Geochronology、Sedimentary Geology、Radiation Measurements等国际学术期刊发表论文20余篇。

第1作者科研论文：

(1) Jun Peng, Bo Li*, Zenobia Jacobs, Luke Andrew Gliganic. Optical  dating of sediments affected by post-depositional mixing: Modelling, synthesizing and implications. Catena, 2023, 232: 107383.

(2) Jun Peng*, Xulong Wang*, Hui Zhao*, Zhibao Dong*. Single-sample unmixing and parametric end-member modelling of grain-size distributions with transformed probability density functions and their performance comparison using aeolian sediments. Sedimentary Geology, 2023, 445: 106328.

(3) Jun Peng*, Xulong Wang, Adamiec Grzegorz, Hui Zhao. Critical role of the deep electron trap in explaining the inconsistency of sensitivity-corrected natural and regenerative growth curves of quartz OSL at high irradiation doses. Radiation Measurements, 2022, 159: 106874.

(4) Jun Peng*, Hui Zhao*, Zhibao Dong*, Zhengcai Zhang, Hongyu Yang, Xulong Wang*. Numerical methodologies and tools for efficient and flexible unmixing of single-sample grain-size distributions: Application to late Quaternary aeolian sediments from the desert-loess transition zone of the Tengger Desert. Sedimentary Geology, 2022, 438: 106211.

(5) Jun Peng*, Xulong Wang, Adamiec Grzegorz. Test of high sampling density OSL dating of aeolian samples from the south margin of the Tengger Desert using the global standardised growth curve (gSGC) method. Quaternary Geochronology, 2022, 69: 101275.

(6) Jun Peng*, Xulong Wang, Gongming Yin, Grzegorz Adamiec, Jinhua Du, Hui Zhao, Shugang Kang, Guangyin Hu, Yue Zheng. Accumulation of aeolian sediments around the Tengger Desert during the late Quaternary and its implications on interpreting chronostratigraphic records from drylands in north China. Quaternary Science Reviews, 2022, 275: 107288.

(7) Jun Peng*, AM Sadek, George Kitis. New analytical expressions derived from the localized transition model for luminescence stimulation modes of TL and LM-OSL and their applications in computerized curve deconvolution. Nuclear Instruments and Methods in Physics Research Section B, 2021, 507: 46−57.

(8) Jun Peng*, Xulong Wang, Grzegorz Adamiec. The build-up of the laboratory-generated dose-response curve and underestimation of equivalent dose for quartz OSL in the high dose region: A critical modelling study. Quaternary Geochronology, 2022, 67: 101231.

(9) Jun Peng*, Xulong Wang, Grzegorz Adamiec, Vasilis Pagonis, Jeong-Heon Choi. Modelling the dependence of equivalent dose determined from a dose recovery test on preheating temperature: The intervention of shallow electron traps. Radiation Measurements, 2021, 142: 106566.

(10) Jun Peng*, George Kitis, Amr M. Sadek, Eren C Karsu Asal, Zhenguo Li. Thermoluminescence glow-curve deconvolution using analytical expressions: A unified presentation. Applied Radiation and Isotopes, 2021, 168: 109440.

(11) Jun Peng*. Analyzing statistical age models to determine the equivalent dose and burial age using a Markov chain Monte Carlo method. Geochronometria, 2021, 48: 147–160.

(12) Jun Peng, Xulong Wang*. On the production of the medium component in quartz OSL: Experiments and simulations. Radiation Measurements, 2020, 138: 106448.

(13) Jun Peng, Bo Li*, Zenobia Jacobs. Modelling heterogeneously bleached single-grain equivalent dose distributions: Implications for the reliability of burial dose determination. Quaternary Geochronology, 2020, 60: 101108.

(14) Jun Peng, Bo Li*. Single-aliquot regenerative-dose (SAR) and standardised growth curve (SGC) equivalent dose determination in a batch model using the R package ‘numOSL’. Ancient TL, 2017, 35(2): 32−53.

(15) Jun Peng*, Zhibao Dong, Fengqing Han. tgcd: An R package for analyzing thermoluminescence glow curves. SoftwareX, 2016, 5: 112−120.

(16) Jun Peng, Vasilis Pagonis*, Bo Li. On the intrinsic accuracy and precision of the standardised growth curve (SGC) and global-SGC (gSGC) methods for equivalent dose determination: A simulation study. Radiation Measurements, 2016, 94: 53−64.

(17) Jun Peng, Vasilis Pagonis*. Simulating comprehensive kinetic models for quartz luminescence using the R program KMS. Radiation Measurements, 2016, 86: 63−70.

(18) Jun Peng*, Zhibao Dong, Fengqing Han, Lei Gao. Aeolian activity in the south margin of the Tengger Desert of northern China since the Late Glacial period revealed by luminescence chronology. Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, 457: 330−341.

(19) Jun Peng*, Zhibao Dong, Fengqing Han. Optically stimulated luminescence dating of sandy deposits from Gulang County at the southwestern margin of the Tengger Desert. Journal of Arid Land, 2016, 8(1): 1−12.

(20) Jun Peng*, Zhibao Dong, Fengqing Han, Yuanhong Han, Xueling Dai. Estimating the number of components in an OSL decay curve using the Bayesian Information Criterion. Geochronometria, 2014, 41(4): 334−341.

(21) Jun Peng*, Zhibao Dong. A simple Bayesian method for assessing the standard error of equivalent dose estimates. Ancient TL, 2014, 32(2): 17−23.

(22) Jun Peng*, Zhibao Dong, Fengqing Han, Hao Long, Xiangjun Liu. R package numOSL: numeric routines for optically stimulated luminescence dating. Ancient TL, 2013, 31(2): 41−48.

(23) 彭俊*, 董治宝, 张正偲. 基于Monte Carlo 方法的释光测年剂量率误差估计. 核技术, 2015, 38(7): 070201.

(24) 彭俊*, 董治宝, 韩凤清. 切片采样算法在光释光年龄模型参数估计中的应用. 地理科学进展, 2015, 35(1): 78−88.

(25) 彭俊*, 董治宝, 韩凤清. 河西走廊西部夏季降水发生概率时空变化的隐马尔科夫模型分析. 地球环境学报, 2015, 6(5): 283−290.

(26) 彭俊, 韩凤清*.腾格里沙漠南缘风积物快组分光释光信号选择研究. 地球学报, 2013, 34(6): 757−762.

其它科研论文：

(1) Xinran Yang, Jun Peng*, Yingna Liu, Bing Liu. Multi-scale analysis of grain size in the component structures of sediments accumulated along the desert-loess transition zone of the Tengger Desert and implications for sources and aeolian dust transportation. Atmosphere 2024, 15: 239.

(2) Hongwei Mo, Jun Peng*, Zhenguo Li, Yan Song, Teng Feng. On the bleaching degree of multi-Grain coarse quartz OSL signal of near-surface aeolian sediments around the Tengger Desert: empirical investigation and numerical validation. Frontiers in Earth Science, 2022, 10: 922692.

(3) Shugang Kang*, Xulong Wang, Ning Wang, Yougui Song, Weiguo Liu, Duo Wang, Jun Peng. Siberian high modulated suborbital-scale dust accumulation changes over the past 30 ka in the eastern Yili Basin, Central Asia. Paleoceanography and Paleoclimatology, 37: e2021PA004360.

(4) George Kitis*, Jun Peng, Bo Li, Vasilis Pagonis. Testing new analytical expression for dose response curves originating from the OTOR model. Journal of Luminescence, 2022, 244: 118747.

(5) Pagonis Vasilis*, Nathan D. Brown, Jun Peng, George Kitis, George S. Polymeris. On the deconvolution of promptly measured luminescence signals in feldspars. Journal of Luminescence, 2021, 239: 118334.

(6) Xiangjun Liu*, Lu Cong, Xiangzhong Li, David Madsen, Yixuan Wang, Yonggang Liu, Jun Peng. Climate conditions on the Tibetan Plateau during the last glacial maximum and implications for the survival of paleolithic foragers. Frontiers in Earth Sciences, 8: 606051.

(7) Xulong Wang*, Jun Peng, Grzegorz Adamiec. Extending the age limit of quartz OSL dating of Chinese loess using a new multiple-aliquot regenerative-dose (MAR) protocol with carefully selected preheat conditions. Quarternary Geochronology, 2020, 62, 101144.

(8) Bo Li*, Zenobia Jacobs, Richard G. Roberts, Rex Galbraith, Jun Peng. Variability in quartz OSL signals caused by measurement uncertainties: Problems and solutions. Quaternary Geochronology, 2017, 41: 11−25.

(9) 郑玥, 彭俊, 王旭龙*. 110℃热释光陷阱光转移现象的数值模拟. 地球环境学报, 2020, 11(3): 325−334.