专译著：

1. 《人工源电磁探测方法技术研究》，薛国强，闫述，周楠楠，陈卫营，2015，地质出版社
2. 《电性源瞬变电磁测深技术》，薛国强，周楠楠，陈卫营，武欣，2017，科学出版社
3. 《电性源短偏移距瞬变电磁法理论与应用》，薛国强，陈卫营，武欣，2022，科学出版社

技术规程：

1. 薛国强，陈卫营，等.《电性源短偏移距瞬变电磁法勘探技术规程》，（T/CGS002-2021）.

发明专利：

1. 陈卫营，何一鸣，薛国强，陈稳. 中国发明专利, 一种探测大地电性结构的方法和装置, ZL201911188672.9.
2. 陈卫营，薛国强，陈康，钟华森，马振军. 中国发明专利，一种探测油气储层的可控源电磁方法, ZL201710028283.4.
3. 陈卫营，王彦兵，金永军，周剑. 澳大利亚革新专利, A transient electromagnetic transmitting and receiving device，2020100382.
4. 陈卫营，薛国强，何一鸣，张林波，陈稳.澳大利亚革新专利,Artificial source near-zone frequency domain electromagnetic sounding method，2020100504.
5. 陈卫营，薛国强，底青云，韩思旭，宋婉婷.澳大利亚革新专利,Ground-borehole electrical source short offset transient electromagnetic detection method，2020102911.
6. 薛国强，闫述，陈卫营. 中国发明专利, 电性源瞬变电磁法全场区探测方法, ZL201110181015.9.
7. 薛国强，周楠楠，底青云，闫述，陈卫营，侯东洋. 中国发明专利,一种瞬变电磁探测方法、装置和系统, ZL201510072462.9.
8. 薛国强，闫述，底青云，邱卫忠，程久龙，陈卫营.中国发明专利,一种基于瞬变电磁法探测煤矿积水采空区的方法和装置, ZL201510051516.3.
9. 薛国强，岳建华，底青云，陈卫营，崔江伟，韩德品.中国发明专利,长导线接地源地下瞬变电磁探测方法及装置, ZL201410746452.4.
10. 薛国强，闫述，底青云，邱卫忠，陈卫营，钟华森，侯东洋.中国发明专利,一种用于电磁干扰地区的CSAMT测量方法和装置  ZL201510166597.1.
11. 薛国强，陈卫营，闫述，周楠楠，底青云. 美国专利, Device and method for ground source transient electromagnetic near-field detection and related device, US10955578B2.
12. 薛国强，刘树才，姜志海，陈卫营，岳建华，底青云. 美国专利, Method and device for surface-borehole transient electromagnetic detection, US11187824B2.
13. 薛国强，陈卫营，郭文波，周楠楠，李海，武欣. 澳大利亚革新专利, A method for grounded short-offset transient electromagnetic geophysical surveying, 2020101105.
14. 薛国强，周楠楠，陈卫营. 澳大利亚革新专利, Device for acquiring deep information by using high-performance transient electromagnetic sensor, 2021100787.
15. 薛国强，周楠楠，陈卫营. 澳大利亚革新专利，Transient Electromagnetic Sounding Transmitting Device of Medium Power, 2021101091.
16. 韩思旭，陈卫营，薛国强，罗强. 澳大利亚革新专利, A multi-source short-offset frequency domainelectromagnetic detection method, 2020101824.

期刊文章

2022

68. Xue GQ, Chen WY*, Wu X, et al. 2022. A Near-Source Electromagnetic Method for Deep Ore Explorations. Minerals, 12: 1208.

67. He YM, Chen WY*, Lei KX, et al. 2022. Semi-Airborne electromagnetic 2.5D inversion based on a PSO–LCI strategy. Journal of Applied Geophysics, 197: 104541

66. 陈卫营, 薛国强, 宋婉婷, 等, 2022. 交流高压输电线工频电磁场精确计算与特性分析. 地球物理学报,65(5):1813-1821.65. 宋婉婷, 陈卫营*, 2022. SOTEM数据拟二维反演研究与应用.地球科学与环境学报,44(1): 132-142.

2021

64. 陈卫营, 薛国强, 2021. 电性源短偏移距瞬变电磁法数据处理软件系统.地球科学与环境学报, 43(6):1050-1056.

63. 韩思旭, 陈小斌, 陈卫营* ,罗强 ,宋婉婷 ,2021. 基于CUDA架构并行算法的带地形AMT二维反演实现与应用. 科学技术与工程, 21(31):13268-09.

62. 韩思旭, 陈卫营* ,薛国强 ,雷康信 ,宋婉婷 ,2021. 频率域可控源电磁法多源数据联合反演.地球科学与环境学报, 43(6):1057-1068.

61. 薛国强, 李海, 陈卫营, 余传涛, 等, 2021. 煤矿含水体瞬变电磁探测技术研究进展. 煤炭学报, 46(1):77-85.

2020

60. Chen WY, Han SX, Khan MY, et al, 2020. A Surface-to-Borehole TEM System Based on Grounded-wire Sources: Synthetic Modeling and Data Inversion. Pure and Applied Geophysics, 177: 4207-4216.

59. Xue GQ, Zhang LB, Zhou NN, Chen WY. Developments measurements of TEM sounding in China. Geological Journal, 2020, 55(3) :1636-1643.

58. Khan MY, Xue GQ*, Chen WY. Investigation of groundwater inrush zone using petrophysical logs and short-offset transient electromagnetic (SOTEM)  data. Journal of Environmental and Engineering Geophysics, 2020, 25(3) : 433-437.

57. Zhang LB, Xue GQ, Khan MY, Chen WY, et al, 2020. Exploration of a magnetite deposit buried under thick and conductive sediments with multiple-source CSEM. Journal of Applied Geophysics,180:104112

56. 雷康信, 薛国强, 陈卫营, 周楠楠, 2020. 瞬变电磁法探测薄层的分辨能力与偏移距关系. 地球科学与环境学报,42(6):731-736.

55. 薛国强, 陈卫营* ,武欣, 郭文波, 岳建华 ,于景邨 ,2020. 电性源短偏移距瞬变电磁研究进展. 中国矿业大学学报, 49(2):215-226.

2019

54. 陈卫营, 韩思旭, 薛国强, 2019. 电性源地-井瞬变电磁法全分量响应特性与探测能力分析. 地球物理学报,62(5):1969-1980.

53. Xue JJ, Lu YF, Xue GQ*, Chen WY, 2019. Joint constrained inversion of TEM data to investigate deeply-buried ore deposit. Bollettino di Geofisica Teorica ed Applicata,60(4):624-628.

52. Chen K, Zhang JY, Xue GQ*, Hao JT, Yue YZ, Huang H, Chen WY, 2019. Feasibility of monitoring hydraulic connection between aquifers using time-lapse TEM - a case history in Inner Mongolia, China. Journal of Environmental and Engineering Geophysics, 24(3) : 361-372.

51. Chen K, Xue GQ, Chen WY, Zhou NN, Li H, 2019. Fine and Quantitative Evaluations of the Water Volumes in an Aquifer Above the Coal Seam Roof, Based on TEM. Mine Water and the Environment, 38:49–59

50. Hou DY, Xue GQ*, Zhou NN, He YM, Chen WY,2019 Comparison between Different Apparent Resistivity Definitions of CSAMT. Journal of Environmental and Engineering Geophysics, 24(1):119-127

49. 陈稳, 薛国强, 陈卫营, 周楠楠, 卢云飞, 2019. SOTEM多分量激电响应特性分析. 地球物理学进展, 34(5):1859-1865.

2018

48. Xue GQ, Li X, Yu SB, Chen WY, Ji YJ. The Application of Ground-airborne TEM Systems for Underground Cavity Detection in China. Journal of Environmental and Engineering Geophysics, 2018,23(1):103-113.

47. Xue GQ, Chen K, Chen WY, Tian ZB. The Determination of the Burial Depth of Coal Measure Strata Using Electromagnetic Data. Journal of Environmental and Engineering Geophysics, 2018,23(1):125-134

46. Xue GQ, Chen WY, Ma ZJ, Hou DY. Identifying Deep Saturated Coal Bed Zones in China through the use of large loop TEM. Journal of Environmental and Engineering Geophysics, 2018,23(1):135-142

45. Xue GQ, Chen WY, Yan S, 2018. Research study on the short offset time-domain electromagnetic method for deep exploration. Journal of Applied Geophysics,155:131-137.

44. Khan MY, Xue GQ, Chen WY, et al, 2018. Analysis of Long-offset Transient Electromagnetic (LOTEM) Data in Time, Frequency, and Pseudo-seismic Domain. Journal of Environmental and Engineering Geophysics, 23(1):15-32.

2017

43. Chen WY, Xue GQ, Khan MY, et al, 2017. Using SOTEM Method to Detect BIF Bodies Buried Under Very Thick and Conductive Quaternary Sediments, Huoqiu Deposit, China. Pure and Applied Geophysics,174:1013-1023.

42. Chen WY, Khan MY, Xue GQ. Response of surface-to-borehole SOTEM method on 2D earth. Journal of Geophysics and Engineering,14:987-997.

41. Chen WY, Xue GQ, Olatayo AL, et al. 2017. A comparison of loop time-domain electromagnetic and short-offset transient electromagnetic methods for mapping water-enriched zones — A case history in Shaanxi, China. Geophysics, 82(6):B201-B208.

40. Zhou NN, Xue GQ, Chen WY, et al. 2017. A comparison of TEM data from different near-source systems. Journal of Geophysics and Engineering,14:487-501.

39. Zhou NN, Xue GQ, Hou DY, Li H, Chen WY, 2017. Short-offset grounded-wire TEM method for efficient detection of mined-out areas in vegetation-covered mountainous coalfields. Exploration Geophysics,48,374–382.

38. 陈卫营, 李海, 薛国强, 陈康, 钟华森, 2017. SOTEM数据一维OCCAM反演及其应用于三维模型的效果. 地球物理学报, 60(9):3667-3676.

37. 陈康, 薛国强, 陈卫营, 周楠楠, 李海, 2017. 一种煤层顶板富水性快速评价方法,32(4):1752-1757.

36. 薛俊杰, 陈卫营*, 王贺元, 2017. 电性源短偏移距瞬变电磁探测深度分析与应用. 物探与化探, 41(2):351-384.

2016

35. 陈卫营, 薛国强, 崔江伟, 钟华森, 2016. SOTEM响应特性分析与最佳观测区域研究. 地球物理学报,59(2):739-748.

34. 陈卫营, 薛国强, 2016. SOTEM一维等效源反演方法. 物探与化探,40(2):411-416.

33. 薛国强, 闫述, 陈卫营, 2016.电磁测深数据地形影响的快速校正. 地球物理学报,59(12):4408-4413.

32. 武欣, 薛国强*, 陈卫营, 吴凯, 齐林, 刘富波, 方广有, 2016. 瞬变电磁探测系统(CASTEM)试验对比—安徽颖上大王庄铁矿. 地球物理学报, 59(12):4448-4456.

31. 侯东洋, 薛国强, 陈卫营, 2016. SOTEM与CSAMT对低阻层的分辨能力比较. 物探与化探,40(1):185-189.

30. 韩思旭, 李勇, 陈卫营*, 王显祥, 2016. 基于CUDA并行计算的大地电磁二维有限元数值模拟研究. 地球物理学进展,31(3):1095-1102.

29. Chen WY, Xue GQ, Khan MY, et al, 2016. Quasi MT Inversion of Short-Offset Transient Electromagnetic Data. Pure and Applied Geophysics,173:2413-2422.

28. Xue GQ, Chen K, Chen WY, Yan S. The effect and application of "false extreme" in frequency-domain electromagnetic sounding. In Proceedings of the 7th International Conference on Environment and Engineering Geophysics, Kang, C., Dongyang, H., Eds. 2016,71:1-3.

27. Zhou NN, Xue GQ, Li H, Khan MY, Hou DY, Zhong HS, Chen WY, Cui JW. 2016. A Comparison of Different-Mode Fields Generated from Grounded-Wire Source Based on the 1D Model.Pure and Applied Geophysics,173:591-606.

2015

26. 陈卫营, 薛国强, 2015. 电性源瞬变电磁对薄层的探测能力.物探与化探,39(4):775-779.

25. 陈卫营, 薛国强, 2015. 广域电磁法中垂直磁场分量的分析与应用. 物探与化探, 39(2):358-361.

24. 陈卫营, 薛国强, 崔江伟, 2015. 电性源瞬变电磁发射源形变对观测结果影响分析, 地球物理学进展, 30(1):0126-0132.

23. 薛国强, 闫述, 陈卫营, 李海, 2015. SOTEM深部探测关键问题分析, 地球物理学进展, 30(1):0121-0125.

22. 崔江伟, 薛国强, 陈卫营, 邓居智, 2015. 电性源瞬变电磁B场全程视电阻率计算. 地球物理学进展,30(6):2690-2697.

21. Chen WY, Xue GQ, Khan MY, Leiv JG, Zhou NN, Li H, Zhong HS, 2015. Application of Short-Offset TEM (SOTEM) Technique in Mapping Water-Enriched Zones of Coal Stratum, an Example from East China. Pure and Applied Geophysics, 172(6) : 1643-1651.

20. Xue GQ, Li X, Gelius LJ, Qi ZP, Zhou NN, Chen WY. A New Apparent Resistivity Formula for In-loop Fast Sounding TEM Theory and Application. Journal of Environmental & Engineering Geophysics, 2015, 20(2) : 107-118

19. Li H, Xue GQ, Zhou NN, Chen WY, 2015. Appraisal of an Array TEM Method in Detecting a Mined-Out Area Beneath a Conductive Layer. Pure and Applied Geophysics, 172: 2917-2929

18. Xue GQ, Yan S, Gelius LJ, Chen WY, et al, 2015. Discovery of a Major Coal Deposit in China with the Use of a Modified CSAMT Method. Journal of Environmental and Engineering Geophysics, 20(1): 47-56.

17. Zhou NN, Xue GQ, Chen WY, Cheng JL, 2015. Large-depth hydrogeological detection in the North China-type coalfield through short-offset grounded-wire TEM. Environmental Earth Sciences, 74: 2393-2404.

2014

16. Xue GQ, Gelius LJ, Sakyi PA, Zhou NN, Chen WY, Su BC, Li H, Zhong HS, Su YP, 2014. Discovery of a hidden BIF deposit in Anhui province, China by integrated geological and geophysical investigations. Ore Geology Reviews, 63:470-477

15. Xue GQ, Zhou NN, Chen WY, Li H, Yan S, 2014. Research on the Application of a 3-m Transmitter Loop for TEM Survey in Mountainous Areas , Journal of Environmental and Engineering geophysics,19(1): 3-12.

14. Xue GQ, Li SC, Chen WY, Hou DY, 2014. Review of electrical prospecting technology for cola mining in China. Journal of Geology and Geosciences, 3(5): e117

13. 薛国强, 闫述, 陈卫营, 2014. 接地源短偏移瞬变电磁法研究展望, 地球物理学进展，29(1):177-181.

12. 陈卫营, 薛国强, 2014. 接地导线源电磁场全域有效趋肤深度, 地球物理学报，57(7):2314-2320,doi:10.6038/cjg20140725.

2013

11. Xue GQ Chen WY, Zhou NN, Li H, Zhong HS, 2013. Understanding of Grounded-Wire TEM Sounding with Near-Source Configuration. J Geophys Remote Sensing 2:113.

10. Xue GQ, Cheng JL, Zhou NN, Chen WY, Li H, 2013. Detection and monitoring of water-filled voids using transient electromagnetic method: a case study in Shanxi, China. Environ Earth Sci (2013) 70:2263–2270. DOI 10.1007/s12665-013-2375-2.

9. Xue, GQ, Gelius LJ, Li X, Qi ZP and Chen WY, 2013. 3D pseudo-seismic imaging of transient electromagnetic data – a feasibility study. Geophysical Prospecting, 61 (S1), 561–571.

8. 薛国强, 陈卫营, 周楠楠, 李海, 2013. 接地源瞬变电磁短偏移深部探测技术. 地球物理学报, 56(1):255-261.

7. 薛国强, 闫述, 陈卫营, 2013. 电性源瞬变电磁短偏移探测方法.中国有色金属学报,23(9):2365-2370.

6. 陈卫营, 薛国强, 2013. 瞬变电磁法多装置探测技术在煤矿采空区调查中的应用. 地球物理学进展,28(5):2709-2717.

2011

5. Xue GQ, Elzein EA, Yan S, Chen WY, Zhou NN, 2011. Effect and application of CSAMT single components，Australian journal of basic and applied sciences,5(7):833-842.

4. 张力, 阮百尧, 吕玉增, 杨庭伟, 陈卫营, 李静和, 2011. 坑道全空间直流聚焦超前探测模拟研究. 地球物理学报,54(4):1130-1139.

3. 周楠楠, 薛国强, 陈卫营, 等, 2011. 铁矿采空区的地球物理探测. 地球物理学进展,26(2)：669-674.

2. 王建历, 阮百尧, 李长伟, 吕玉增, 侯冬梅, 李梅芳, 陈卫营, 2011. 坑道环境对电阻率测深影响的模型试验. 桂林理工大学学报,31(1):39-43.

1. 陈卫营, 薛国强, 李梅芳, 2011. 电性源近场区瞬变电磁响应特征. 物探化探计算技术,33(刊):122-126.

成果转化

1. 2021/山东省物化探勘查院/专利许可

2. 2021/江苏省地质勘查技术院/专利许可

3. 2021/山西煤炭地质物探测绘院/专利许可

4. 2022/贵州煤田地球物理勘探有限责任公司/软件许可