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Nuclear Forces for Precision Nuclear Physics: A Collection of Perspectives
Few-body systems, 2022This is a collection of perspective pieces contributed by the participants of the Institute for Nuclear Theory’s Program on Nuclear Physics for Precision Nuclear Physics which was held virtually from April 19 to May 7, 2021. The collection represents the
I. Tews +44 more
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Subatomic Physics, 2021
This volume presents, with some amplification, the notes on the lectures on nuclear physics given by Enrico Fermi at the University of Chicago in 1949 "The compilers of this publication may be warmly congratulated The scope of this course is amazing ...
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This volume presents, with some amplification, the notes on the lectures on nuclear physics given by Enrico Fermi at the University of Chicago in 1949 "The compilers of this publication may be warmly congratulated The scope of this course is amazing ...
semanticscholar +1 more source
Nuclear Physics A, 1993
Abstract Recent experimental results in antinucleon-nucleus interaction obtained by the OBELIX collaboration at LEAR are presented. Preliminary results concerning the total antineutron-nucleus annihilation cross section at low energy are reported.
A. ABLEEV +79 more
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Abstract Recent experimental results in antinucleon-nucleus interaction obtained by the OBELIX collaboration at LEAR are presented. Preliminary results concerning the total antineutron-nucleus annihilation cross section at low energy are reported.
A. ABLEEV +79 more
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Nuclear Physics and Nuclear Medicine
2007In this chapter we consider some of the properties of radioactive nuclei and their use for medical imaging and for cancer therapy. We begin by reviewing different mechanisms of radioactive decay, such as alpha, beta, and gamma decay, internal conversion, electron capture, and positron emission.
Russell K. Hobbie, Bradley J. Roth
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2012
The study of the basic physics used in nuclear oncology involves understanding the way energy associated with radioactive emissions can be best used to image, diagnose, stage, treat, and monitor the patient with cancer. In this chapter, we will cover the physics involved in these processes.
Dale L. Bailey, John L. Humm
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The study of the basic physics used in nuclear oncology involves understanding the way energy associated with radioactive emissions can be best used to image, diagnose, stage, treat, and monitor the patient with cancer. In this chapter, we will cover the physics involved in these processes.
Dale L. Bailey, John L. Humm
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AIP Conference Proceedings, 2014
There are important aspects of Cosmology, the scientific study of the large scale properties of the universe as a whole, for which nuclear physics can provide insights. Here, we will focus on Standard Big-Bang Nucleosynthesis and we refer to the previous edition of the School [1] for the aspects concerning the variations of constants in nuclear cosmo ...
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There are important aspects of Cosmology, the scientific study of the large scale properties of the universe as a whole, for which nuclear physics can provide insights. Here, we will focus on Standard Big-Bang Nucleosynthesis and we refer to the previous edition of the School [1] for the aspects concerning the variations of constants in nuclear cosmo ...
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Nuclear physics and nuclear power
Atomic Energy, 1999For the example of the Radium Institute, which recently celebrated its 75th anniversary and has been a part of the Academy of Sciences for around 40 years, it is shown how nuclear physics, as the theoretical basis of the nuclear power industry, facilitates its development and the transition to internally safe and environmentally sound nuclear ...
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Nuclear Physics for Nuclear Fusion
Fusion Science and Technology, 2002The nuclear fusion data for deuteron-triton resonance near 100 keV are found to be consistent with the selective resonant tunneling model. The feature of this selective resonant tunneling is the selectivity. It selects not only the energy level, but also the damping rate (nuclear reaction rate).
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2010
Information about the structure of nuclei can be obtained from high-energy electron scattering experiments. The results of these experiments show that the density of nuclear matter is roughly the same at the center of all nuclei. The nuclear density increases with A, but appears to approach a limiting value of about 0.17 nucleons per fm−3 for large A ...
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Information about the structure of nuclei can be obtained from high-energy electron scattering experiments. The results of these experiments show that the density of nuclear matter is roughly the same at the center of all nuclei. The nuclear density increases with A, but appears to approach a limiting value of about 0.17 nucleons per fm−3 for large A ...
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Supersymmetry in Nuclear Physics
2009One particularly important extension of the interacting boson model (IBM) concerns odd-mass nuclei, achieved by considering, in addition to the bosons, a fermion coupled to the core with an appropriate boson–fermion interaction. The resulting interacting boson–fermion model (IBFM) is thus a specific version of the particle–core coupling model which has
Frank, A., van Isacker, P., Jolie, J.
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