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Determination of the fraction of paramagnetic centers not-fulfilling the Curie law in coal macerals by the two-temperature EPR measurement method

References 1. Szroeder, P., Rozpłoch, F., & Marciniak, W. (2003). Two-temperature EPR measurements of multi-walled carbon nanotubes. Solid State Phenom ., 94 , 275–278. http://www.scientific.net . 2. Rozpłoch, F. (1984). Negative magnetoresistivity in pyrolytic coal . Habilitation thesis, Nicolaus Copernicus University, Toruń, Poland. 3. Pilawa, B. (2000). Evolution of paramagnetic centers during thermal decomposition of coal macerals. Habilitation thesis, Pedagogical University, Zielona Góra, Poland. 4. Duber, S., & Więckowski, A. B

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Investigation of the influence of chamber construction parameters on radon exhalation rate

at the Southwest of Spain J. Environ. Radioact. 95 2/3 63 74 13. Oberstedt, S. H., & Vanmarcke, A. (1996). A radon exhalation monitor. Radiat. Prot. Dosim. , 63 (1), 69–72. Oberstedt S. H. Vanmarcke A. 1996 A radon exhalation monitor Radiat. Prot. Dosim. 63 1 69 72 14. Iimoto, T., Akasaka, Y., Koike, Y., & Kosako, T. (2008). Development of a technique for the measurement of the radon exhalation rate using an activated charcoal collector. J. Environ. Radioact., 99 , 587–595. Iimoto T. Akasaka Y. Koike Y

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Nukleonika
The Journal of Instytut Chemii i Techniki Jadrowej
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Measurement of anthropogenic radionuclides in post-Fukushima Pacific seawater samples

.), Proceedings of the 1997 International Symposium on Environmental Radiation (pp. 56-75). Osaka, Japan: Kansai Kosaido Co. 4. Kanazawa University. (2014). Detectors in the Ogoya Underground Laboratory. Retrieved October 1st, 2014, from http://llrl.kuunet.ocn.ne.jp/oul/sub9.html. 5. Hamajima, Y., & Komura, K. (2004). Background components of Ge detectors in Ogoya Underground Laboratory. Appl. Radiat. Isot., 61, 179-183. 6. Komura, K., & Hamajima, Y. (2004). Ogoya Underground Laboratory for the measurement of extremely low levels

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Design and simulation of a multienergy gamma ray absorptiometry system for multiphase flow metering with accurate void fraction and water-liquid ratio approximation

References 1. Scheers, A. M. (2000). An oil/water/gas composition meter based on multiple energy gamma ray absorption (MEGRA) measurement . ETDEWEB ID:20061564. 2. Holstad, M. B. (2004). Gamma-ray scatter methods applied to industrial measurement systems . Unpublished Ph.D. thesis, Department of Physics and Technology, University of Bergen, Norway. 3. Scheers, A., & Letton, W. (1996). An oil/water/gas composition meter based on multiple energy gamma ray absorption (MEGRA) measurement. In Proceedings of 14th North Sea Flow Measurement Workshop

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Recent ion measurements within the modified DPF-1000U facility

emission from plasma-focus facilities. Plasma Phys. Contr. Fusion , 30 (6), 763–769. DOI: 10.1088/0741-3335/30/6/008. 7. Sadowski, M. (2000). Studies and applications of dense magnetized plasmas. J. Tech. Phys ., Special Issue , 41 (1), 123–145. 8. Jakubowski, L., Sadowski, M., & Żebrowski, J. (2001). Measurements of charged particle beams from plasma-focus discharges. Nucl. Fusion , 41 (6), 755–759. DOI: 10.1088/0029-5515/41/6/311. 9. Szydłowski, A., Scholz, M., Karpiński, L., Sadowski, M., Tomaszewski, K., & Paduch, M. (2001). Neutron and fast

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Ambient dose equivalent measurements in secondary radiation fields at proton therapy facility CCB IFJ PAN in Krakow using recombination chambers

., Rosenfeld, A., & Schulte, R. (2007). Out-of-field dose equivalents delivered by proton therapy of prostate cancer. Med. Phys ., 34 , 3449–3456. 16. Newhauser, W. D., Burns, J., & Smith, A. R. (2002). Dosimetry for ocular proton beam therapy at the Harvard Cyclotron Laboratory based on the ICRU Report 59. Med. Phys ., 29 , 1953–1961. 17. Yan, X., Titt, U., Koehler, A. M., & Newhauser, W. D. (2002). Measurement of neutron dose equivalent to proton therapy patients outside of the proton radiation field. Nucl. Instrum. Methods Phys. Res. Sect. A

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Results of the 2015 national indoor radon intercomparison measurements in Serbia

for radon-222 measurement using charcoal canisters. Montgomery, Alabama. (EPA 520/5-87-005). Grey D. J. Windham S. T. 1987 EERF standard operating procedures for radon-222 measurement using charcoal canisters Montgomery, Alabama (EPA 520/5-87-005) 4. Cohen, B. L., & Cohen, E. S. (1983). Theory and practice of radon monitoring with charcoal absorption. Health Phys. , 45 (2), 501–508. Cohen B. L. Cohen E. S. 1983 Theory and practice of radon monitoring with charcoal absorption Health Phys. 45 2 501 508 5. G

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Application of the Böhm chamber for reference beta dose measurements and the calibration of personal dosimeters

References 1. Skubacz, K. (2015). Measurements of low doses with Panasonic dosimeters. Algorithm and tests. Radiat. Meas ., 75 , 9–14. DOI: 10.1016/j.radmeas.2015.02.020. 2. International Organization for Standardization. (1996). X and gamma reference radiation for calibrating dosemeters and doserate meters and for determining their response as a function of photon energy – Part 1: Radiation characteristics and production methods. ISO 4037-1-1996. Geneva. 3. Piesch, E., & Burgkhardt, B. (1988a). Albedo dosimetry system for routine personnel

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Measurements of fast electron beams and soft X-ray emission from plasma-focus experiments

., Sadowski, M. J., Tomaszewski, K., & Zielinska, E. (2012). Energy transformation in column of plasma-focus discharges with MA currents. IEEE Trans. Plasma Sci., 40(2), 481-486. 11. Nuclear Enterprises. (1980). Scintillation materials. Sighthill, Edinburgh, Scotland. Retrieved from http://www.hpicorg.com/downloads/Nuclear%20Enterprises%20Scintillation%20Materials%20-%201980.pdf. 12. Surala, W., Sadowski, M. J., Paduch, M., Zielinska, E., & Tomaszewski, K. (2015). Recent measurements of soft X-ray emission from the DPF-1000U facility

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