References
- Aboud, M., Badry, R., Grau, J., Herron, S., Hamichi, F., Horkowitz, J., Hemingway, J., MacDonald, R., Saldungaray, P., Stachiw, D., Stoller, C., and Williams, R. E., 2014, Highdefinition spetroscopy-determining mineralogic complexity, Oilfield Review, 26, 34-50.
- Baker, P. E., 1957, Neutron capture gamma-ray spectra of earth formations, SPE, 210, 97-101.
- Barson, D., Christensen, R., Decoster, E., Grau, J., Herron, M., Herron, S., Guru, U. K., Jordan, M., Maher, T. M., Rylander, E., and White, J., 2005, Spectroscopy: The key to rapid, reliable petrophysical answers, Oilfield Review, 17(2), 14-33.
- Craddock, P., Herron, S. L., Badry, R., Swager, L. I., Grau, J. A., Horkowitz, J. P., and Rose, D. A., 2013, Hydrocarbon saturation from total organic carbon logs derived from inelastic and capture nuclear spectroscopy, SPE Annual Technical Conference and Exhibition, 1-14.
- Culver, R. B., Hopkinson E. C., and Youmans, A. H., 1974, Carbon/Oxygen (C/O) logging instrumentation, SPEJ, 14(5), 463-470. https://doi.org/10.2118/4640-PA
- Engesser, F. C., and Thompson, W. E., 1967, Gamma rays resulting from interactions of 14.7 MeV neutrons with various elements, J. Nuclear Energy, 21(6), 487-507. https://doi.org/10.1016/0022-3107(67)90020-2
- Freedman, R., Herron, S., Anand, V., Herron, M., May, D., and Rose, D., 2014, New method for determining mineralogy and matrix properties from elemental chemistry measured by gamma ray spectroscopy logging tools, SPE Annual Technical Conference and Exhibition, 1-16.
- Galford, J., Truax, J., Hrametz, A., and Haramboure, C., 2009, A new neutron-induced gamma-ray spectroscopy tool for geochemical logging, SPWLA 50th Annual Logging Symposium, 1-14.
- Gonzalez, J., Lewis, R., Hemingway, J., Grau, J., Rylander, E., and Schmitt, R., 2013, Determination of formation organic carbon content using a new neutron-induced gamma ray spectroscopy service that directly measures carbon, SPWLA 54th Annual Logging Symposium, 1-15.
- Grau, J. A., and Schweitzer, J. S., 1989, Elemental concentrations from thermal neutron capture gamma-ray spectra in geological formations, Nuclear Geophysics, 3(1), 1-9.
- Grau, J. A., Schweitzer, J. S., Ellis, D. V., and Hertzog, R. C., 1989, A geological model for gamma-ray spectroscopy logging measurements, Nuclear Geophysics, 3(4), 351-359.
- Grover, R., 2017, Tool enables complete cased-hole formation evaluation, reservoir saturation modeling, J. Pet. Technol., 69(10), 18-20. https://doi.org/10.2118/1017-0018-JPT
- Herron, S. L., and Herron, M. M., 1996, Quantitative lithology: An application for open and cased hole spectroscopy, SPWLA 37th Annual Logging Symposium, 1-14.
-
Herron, S. L., 1995, 1996, Method and apparatus for determining elemental concentrations for
${\gamma}ray$ spectroscopy tools, Process Control and Quality, 8, N28-N29. - Hertzog, R. C., 1980, Laboratory and field evaluation of an inelastic neutron scattering and capture gamma ray spectrometry tool, SPEJ, 20(5), 1-14. https://doi.org/10.2118/7430-PA
- Hertzog, R., Colson, L., Seeman, O., O'Brien, M., Scott, H., McKeon, D., Wraight, P., Grau, J., Ellis, D., Schweitzer, J., and Herron, M., 1989, Geochemical logging with spectrometry tools, SPE Formation Evaluation, 4(2), 153-162. https://doi.org/10.2118/16792-PA
- Hwang, S., 2015, Gamma spectroscopy well logging for physical properties measurement in unconventional reservoirs, Ministry of Trade, Industry and Energy (in Korean).
- Hwang, S., Shin, J., Won, B., Kim, J., and Doh, T., 2018, Laboratory experiments of neutron induced gamma ray spectrometry tool, Conference of Near Surface Geoscience 2018, 24P2.
- Li, F., Han X., and Mendez, F., 2011, Sigma measurement and applications with a pulsed neutron mineralogy instrument, SPWLA 52th Annual Logging Symposium, 1-8.
- Lock, G. A., and Hoyer, W. A., 1974, Carbon-Oxygen (C/O) log: Use and interpretation, J. Pet. Technol., 26(9), 1044-1054. https://doi.org/10.2118/4639-PA
- Millot, P., Wong, F. K., Rose, D. A., Zhou, T., Grover, R., Sundaralingam, S., Amin, F., Prasodjo, A., Johare, D., and Hui, K., 2017, Field test results in Malaysia wells of a newgeneration slim pulsed neutron logging tool, SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition, 1-12.
- Muench, N. L., and Osoba, J. S., 1957, Identification of earth materials by induced gamma-ray spectral analysis, J. Pet. Technol., 9(3), 89-92.
- Pemper, R., Sommer, A., Guo, P., Jacobi, D., Longo, J., Bliven, S., Rodriguez, E., Mendez, F., and Han, X., 2006, A new pulsed neutron sonde for derivation of formation lithology and mineralogy, SPE Annual Technical Conference and Exhibition, 1-13.
- Quirein, J., Kimminau, S., LaVigne, J., Singer, J., and Wendel, F., 1986, A coherent framework for developing and applying multiple formation evaluation models, SPWLA 27th Annual Logging Symposium, 1-17.
- Radtke, R. J., Lorente, M., Adolph, B., Berheide, M., Fricke, S., Grau, J., Herron, S., Horkowitz, J., Jorion, B., Madio, D., May, D., Miles, J., Perkins, L., Philip, O., Roscoe, B., Rose, D., and Stoller, C., 2012, A new capture and inelastic spectroscopy tool takes geochemical logging to the next level, SPWLA 53th Annual Logging Symposium, 1-16.
- Rose, D., Zhou, T., Beekman, S., Quinlan, T., Delgadillo, M., Gonzalez, G., Fricke, S., Thornton, J., Clinton, D., Gicquel, F., Shestakova, I., Stephenson, K., Stoller, C., Philip, O., Marin, J., Mainier, S., Perchonok, B., and Bailly, J-P., 2015, An innovative slim pulsed neutron logging tool, SPWLA 56th Annual Logging Symposium, 1-23.
- Schultz, W. E., and Smith, H. D., 1974, Laboratory and field evaluation of a Carbon/Oxygen (C/O) well logging system, J. Pet. Technol., 26(10), 1103-1110. https://doi.org/10.2118/4638-PA
- Shin, J., Hwang, S., Kim, G., Lee, G., Lee, S. H., Kim, K. Y., Park, I., and Jeon, J., 2018, Borehole elemental concentration logs for assessing subsurface environments, Proceedings of 2018 Korean Society of Soil and Groundwater environment Special Symposium, 57 (in Korean).
- Smith, C. P., Jeanneau, P., Maddever, R. A. M., Fraser, S. J., Rojc, A., Lofgrena, M. K., and Flahaut, V., 2015, PFTNA logging tools and their contributions to in-situ elemental analysis of mineral boreholes, wcsb7 proceedings, 157-164.
-
Stoller, C., Adolph, B., Berheide, M., Brill, T., Clevinger, P., Crary, S., Crowder, B., Fricke, S., Grau, J., Hackbart, M., Herron, S., Jorion, B., Lorente, M., Madio, D., Miles, J., Philip, O., Radtke, R. J., Roscoe, B., Shestakova, I., Ziegler, W., and Menge, P. R., 2011, Use of
$LaBr_3$ for downhole spectroscopic applications, IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 191-195. - Tittman, J., and Nelligan, W. B., 1960, Laboratory studies of a pulsed neutron-source technique in well logging, J. Pet. Technol., 12(7), 63-66. https://doi.org/10.2118/1227-G
-
Van Leof, E. V. D., Dorenbos, P., van Eijk, C. W. E., Kraemer, K., and Guedel, H. U., 2001, High-energy-resolution scintillator:
$Ce^{3+}$ activated$LaBr_3$ , Appl. Phys. Lett., 79(10), 1573-1475. https://doi.org/10.1063/1.1385342 - Yan, W., Feng, M., Wang, Y., Liu, S., Li, K., Zhao, X., and Liang, W., 2018, The Application of a New Neutron Induced Gamma Ray Spectroscopy Tool in Evaluation the Shale Gas in Fuling Shale Gas Field, Open Journal of Yangtze Gas and Oil, 3, 93-103. https://doi.org/10.4236/ojogas.2018.32008
- Won, B., Hwang, S., Shin, J., Kim, J., Kim, K.-S., and Park, C. J., 2015, Neutron induced capture gamma spectroscopy sonde design and response analysis based on Monte Carlo simulation, Geophys. and Geophys. Explor., 18(3), 154-161 (in Korean with English abstract). https://doi.org/10.7582/GGE.2015.18.3.154