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Books on the topic 'Nuclear parameters'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Martin, Kaupp, Bühl Michael, and Malkin Vladimir G, eds. Calculation of NMR and EPR parameters: Theory and applications. Wiley-VCH, 2004.

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2

Kumar, Sunil. Preferred orientation parameters of KAPS 2 Zr-2.5% Nb pressure tubes. Bhabha Atomic Research Centre, 2005.

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3

N, Sah D., and Bhabha Atomic Research Centre, eds. Determination of micro-mechanical parameters of primary heat transport piping material of PHWR. Bhabha Atomic Research Centre, 2000.

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4

Canada, Atomic Energy of. Soil and Climate Parameters For Post-Closure Biosphere Assessment of Nuclear Fuel Waste Disposal. s.n, 1985.

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5

Canada, Atomic Energy of. Hydrologic and Hydrogeologic Parameters For Post-Closure Biosphere Assessment of Nuclear Fuel Waste Disposal. s.n, 1985.

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6

Remec, I. Neutron exposure parameters for capsule 10.05 in the Heavy-Section Steel Irradiation Program tenth irradiation series. Division of Reactor Project Management, Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1998.

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7

Meyer, P. D. Information on hydrologic conceptual models, parameters, uncertainty analysis, and data sources for dose assessments at decommissioning sites. Division of Risk Analysis and Applications, Office of Nuclear Regulatory Reseach, U.S. Nuclear Regulatory Commission, 1999.

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8

Howe, Michael Joseph. Improving Estimates of Seismic Source Parameters Using Surface-Wave Observations: Applications to Earthquakes and Underground Nuclear Explosions. [publisher not identified], 2019.

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9

Habegger, L. J. Update of table S-3 nonradiological environmental parameters for a reference light-water reactor: Uranium mining, milling, and enrichment. Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1987.

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10

Habegger, L. J. Update of table S-3 nonradiological environmental parameters for a reference light-water reactor: Uranium mining, milling, and enrichment. Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1987.

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11

Habegger, L. J. Update of table S-3 nonradiological environmental parameters for a reference light-water reactor: Uranium mining, milling, and enrichment. Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1987.

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12

M, Rasmuson Dale, Mosleh A, U.S. Nuclear Regulatory Commission. Office for Analysis and Evaluation of Operational Data. Division of Safety Programs., Idaho National Engineering and Environmental Laboratory., Lockheed Idaho Technologies Company, and U.S. Nuclear Regulatory Commission., eds. Common-cause failure parameter estimations. Safety Programs Division, Office for Analysis and Evaluation of Operational Data, U.S. Nuclear Regulatory Commission, 1998.

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13

M, Rasmuson Dale, Mosleh A, U.S. Nuclear Regulatory Commission. Office for Analysis and Evaluation of Operational Data. Division of Safety Programs., Idaho National Engineering and Environmental Laboratory., Lockheed Idaho Technologies Company, and U.S. Nuclear Regulatory Commission., eds. Common-cause failure parameter estimations. Safety Programs Division, Office for Analysis and Evaluation of Operational Data, U.S. Nuclear Regulatory Commission, 1998.

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14

M, Rasmuson Dale, Mosleh A, U.S. Nuclear Regulatory Commission. Office for Analysis and Evaluation of Operational Data. Division of Safety Programs., Idaho National Engineering and Environmental Laboratory., and Lockheed Idaho Technologies Company, eds. Common-cause failure parameter estimations. Safety Programs Division, Office for Analysis and Evaluation of Operational Data, U.S. Nuclear Regulatory Commission, 1998.

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15

Pijnappel, Wilhelmus Wilhelmina Francisca. Quantification of 1-D and 2-D magnetic resonance spectroscopic data. Technische Universiteit Delft, 1991.

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16

Liner, R. T. Progress reviews of six safety parameter display systems. Division of PWR Licensing-A, Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1987.

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17

Kuzaev, A. I. Vlii͡anie molekuli͡arno-massovogo raspredelenii͡a na registrat͡sionnye parametry nitratt͡selli͡uloznogo detektora. Ordena Lenina In-t khim. fiziki AN SSSR, 1989.

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18

Agency, International Atomic Energy, ed. Handbook for calculations of nuclear reaction data, RIPL-2: Reference Input Parameter Library-2 : final report of a coordinated research project. International Atomic Energy Agency, 2006.

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19

Rochman, Meuthia G. Human rights as development parameter: In case nucleus estates and labour. Elsam, 1996.

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20

Tripathi, Ratikanta. Universal parameterization of absorption cross sections: Light systems. National Aeronautics and Space Administration, Langley Research Center, 1999.

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21

Tripathi, Ratikanta. Universal parameterization of absorption cross sections. National Aeronautics and Space Administration, Langley Research Center, 1997.

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22

Paula, Benaglia, Bosch Guillermo 1968-, Cappa Cristina, Niemela Virpi, and Universidad Nacional Autónoma de México. Instituto de Astronomía., eds. Massive stars: Fundamental parameters and circumstellar interactions : Cariló, Buenos Aires, Argentina, diciembre 11-14, 2006. Instituto de Astronomía, Universidad Nacional Autónoma de México, 2008.

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23

Optimization of Parameters for a Nuclear Gas Turbine Plant. Creative Media Partners, LLC, 2021.

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24

Canet, Daniel, Fabien Ferrage, Kavita Dorai, and Bernard Ancian. Cross-Relaxation and Cross-correlation Parameters in NMR: Molecular Approaches. Royal Society of Chemistry, The, 2017.

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25

Gibbons, Lawrence K. A precise measurement of the CP-violation parameter Re([epsilon]ʹ/[epsilon]) and other kaon decay parameters. 1993.

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26

Chouchan, J. L., M. Bouchon, and E. Vernaz. Leaching Sensitivity to Geologic Environmental Parameters: Task 3. Bernan Associates, 1991.

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27

Kaupp, Martin, Vladimir G. Malkin, and Michael Bühl. Calculation of NMR and EPR Parameters: Theory and Applications. Wiley & Sons, Incorporated, John, 2006.

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28

Kaupp, Martin, Vladimir G. Malkin, and Michael B�hl. Calculation of NMR and EPR Parameters: Theory and Applications. Wiley & Sons, Limited, John, 2004.

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29

Glazov, M. M. Hyperfine Interaction of Electron and Nuclear Spins. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0004.

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This chapter discusses the key interaction–hyperfine coupling–which underlies most of phenomena in the field of electron and nuclear spin dynamics. This interaction originates from magnetic interaction between the nuclear and electron spins. For conduction band electrons in III–V or II–VI semiconductors, it is reduced to a Fermi contact interaction whose strength is proportional to the probability of finding an electron at the nucleus. A more complex situation is realized for valence band holes where hole Bloch functions vanish at the nuclei. Here the hyperfine interaction is of the dipole–dip
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30

(Editor), Martin Kaupp, Michael Bühl (Editor), and Vladimir G. Malkin (Editor), eds. Calculation of NMR and EPR Parameters: Theory and Applications. Wiley-VCH, 2004.

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31

Šagátová, Andrea. Fundamentals of Nuclear Physics and Technology I. SPEKTRUM STU, 2024. http://dx.doi.org/10.61544/ipxz1813.

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This university textbook provides the first part of basic knowledge in nuclear physics and technology. It focuses on the correct understanding of the problematics of radioactivity of atomic nuclei. The textbook describes the structure and forces of atomic nuclei with background in standard model of elementary particles. It discusses the radioactive decay law as well as the activation of atomic nuclei. It offers the overview of stabilisation of radioactive nuclei via radioactive decay, gamma emission or spontaneous fission. At the end of individual chapters, students will find exercises for pra
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32

Luo, Yutian, ed. Study on key physical parameters of tight reservoir based on nuclear magnetic resonance technology. Ausasia Science and Technology Press, 2022. http://dx.doi.org/10.26804/0104142022.

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33

Mughabghab, Said F. Atlas of Neutron Resonances: Resonance Parameters and Thermal Cross Sections. Z=1-100. Elsevier Science & Technology Books, 2006.

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34

Advances in Nuclear Science and Technology: Volume 14 Sensitivity and Uncertainty Analysis of Reactor Performance Parameters. Springer, 2011.

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35

Stone, Irvine Z. Fast neutron flux effects at the pressure vessel wall due to changes in selected PWR design parameters. 1985.

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36

Deterministic and probabilistic evaluations for uncertainty in pipe fracture parameters in leak-before-break and in-service flaw evaluations. Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1996.

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37

High-multiplicity lead-lead interactions at 158 GeV/c per nucleon. National Aeronautics and Space Administration, 1996.

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38

Sabharwal, Nikant, Parthiban Arumugam, and Andrew Kelion. The gamma camera. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198759942.003.0003.

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Nuclear cardiology imaging is traditionally performed on an Anger gamma camera. Its key component is a large, flat, circular or rectangular sodium iodide crystal, activated by non-radioactive thallium (NaI(Tl)). The side of the crystal facing the patient is covered with a lead collimator, while the side away from the patient is viewed by an array of photomultiplier tubes (PMTs). This chapter provides detail on the gamma camera, including information on crystals and collimators, PMTs, and electronics. Important measures of gamma camera performance parameters and quality control are covered in d
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39

Handbook for Calculations of Nuclear Reaction Data Ripl-2 Reference Input Parameter Library. Intl Atomic Energy Agency, 2006.

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40

Nixdorff, Uwe, Stephan Achenbach, Frank Bengel, et al. Imaging in cardiovascular prevention. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199656653.003.0006.

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Imaging tools in preventive cardiology can be divided into imaging modalities to assess pre-clinical and clinical atherosclerosis and functional assessments of vascular function or vascular inflammation. To calculate the likelihood of pre-clinical atherosclerosis intima-media thickness as well as coronary calcium scoring are most frequently used. However, beyond these two there are other parameters derived by ultrasound and multi-detector computed tomography as well as magnetic resonance imaging and nuclear/molecular imaging which are discussed in the chapter. Functional tests include flow-med
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41

Taillefer, Raymond, and Frans J. Th Wackers. Kinetics of Conventional and New Cardiac Radiotracers. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0004.

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The kinetics of radiotracers, that is the mode of uptake, retention and release from the myocardium, are relevant for designing and implementing optimized nuclear cardiac imaging protocols. This chapter addresses the kinetics of commonly used radiotracers for imaging myocardial perfusion, sympathetic neuronal function and cardiac metabolism, both with SPECT and PET cardiac imaging. The optimal timing of imaging after injection either at stress or at rest is determined by rate of uptake in the heart and adjacent organs, as well as the residence time of radiotracers within the myocytes. The effi
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42

Parameter Study for Optimizing the Mass of a Space Nuclear Power System Radiation Shield. Storming Media, 2002.

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43

Roley, Kenneth L. Indirect parameter identification algorithm in radial coordinates for a porous medium. 1992.

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44

Saltelli, A., and J. Marivoet. Performances on Non-Parametric Statistics in Sensitivity Analysis and Parameter Ranking (Nuclear Science and Technology (European Comm Info Serv)). European Communities, 1987.

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45

Unconventional Superconductors: Experimental Investigation of the Order-Parameter Symmetry (Springer Tracts in Modern Physics). Springer, 2005.

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46

Chiou, Wen-An, Helmut Coutelle, Andreas Decher, et al. Bentonites -. Edited by Stephan Kaufhold. E. Schweizerbart Science Publishers, 2021. http://dx.doi.org/10.1127/bentonites/9783510968596.

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<p><b>Bentonites</b> are rocks mostly consisting of swelling clay minerals. They were first described from the Cretaceous Benton Shale near Rock River, Wyoming, USA. </p> <p> Because of their useful properties (e.g. highly adsorbent, cation exchanging, swelling), bentonites have many uses, in industry (among them as drilling mud, purification agent, binder, adsorbent, paper production), culture (for e.g. pottery) and medicine/cosmetics/cat litter, civil engineering, and in the future even in the disposal of high-level nuclear waste. </p> <p> Particular
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47

Eriksson, Olle, Anders Bergman, Lars Bergqvist, and Johan Hellsvik. Density Functional Theory. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788669.003.0001.

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Density functional theory (DFT) has established itself as a very capable platform for modelling from first principles electronic, optical, mechanical and structural properties of materials. Starting out from the Dirac equation for the many-body system of electrons and nuclei, an effective theory has been developed allowing for materials specific and parameter free simulations of non-magnetic and magnetic solid matter. In this Chapter an introduction will be given to DFT, the Hohenberg-Kohn theorems, the Kohn-Sham equation, and the formalism for how to deal with non-collinear magnetism.
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48

Gerber, Matthias. Nucleolar Organizer Region assoziierte Proteine (Ag-NORs) bei epithelialen Schilddrüsentumoren: Ihre Bedeutung für Diagnose und Prognose im Vergleich mit anderen diagnostischen und prognostischen Parametern. 1991.

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