Physics nuclear

Schatz, G. and Weidinger, A. (1996) Nuclear Condensed Matter Physics Nuclear Methods and Applications (Wiley, Chichester). 

Andrei Sukharov Soviet Physics, Nuclear Weapons, and Human Rights. American Institute of Physics. Niels Bohr Library. August 1, 2000 . 

Institute of Physical, Nuclear and Macromolecular Chemistry Philipps-University of Marburg Hans-Meerwcin-SlraBc D-35032 Marburg Germany... 

The nature of quantum chaos in a specific system is traditionally inferred from its classical counterpart. It is an interdisciplinary field that extends into, for example, atomic and molecular physics, condensed matter physics, nuclear physics, and subatomic physics (H.-... 

Although the material contained in this book concerns the theory of many-electron atoms and ions, its many ideas and methods (e.g., graphical methods, quasispin and isospin techniques, particle-hole formalism, etc.) are fairly universal and may be easily applied (or already are) to other domains of physics (nuclear theory, elementary particles, molecular, solid state physics, etc.). 

The variety of problems in chemistry, classical physics, nuclear physics, and cosmology to which Ya.B. has made fundamental contributions is so great that it is hard to believe that it has all been done by a single person. 

Feshbach. H. Theoretical nuclear physics. Nuclear reactions, Wiley and Sons, New York, 1992. 

From this viewpoint we must expect that all measurements of a, whether they are based on atomic physics, nuclear physics, or condensed matter physics, must agree with a obtained from QED (or more precisely the Standard Model) when their precisions are improved to 10-9, comparable to that of a(ae). If serious disagreement develops as precision of measurement improves, it might indicate a serious fault in some of these theories, possibly including quantum mechanics itself. See [12] for further discussions. 

Interaction between the magnetic field of the electrons and the nuclear spin is the basis for various techniques that are broadly applied in chemistry, atomic physics, nuclear physics and solid-state physics. The magnetic field of the electrons is due to their spin and orbital angular momentum and much larger than the magnetic field of the nucleus. Consequently, the nuclear spin is oriented in relation to the field produced by the electron shell. This leads to hyperfine spectra which can be resolved by means of optical spectrometers of very high resolution. 

Nuclear Physics Nuclear Dynamics, Theoretical, H, A. Bethe, Review of Modern Physics 9, 69, 1937. 

The approximation of the nucleus as an infinitely heavy point charge makes possible analytical solution of the Dirac equation for the hydrogen-like problem. The resulting orbitals are, however, too tightly bound and clearly unphysical within the nucleus. A homogeneously charged nucleus is a significant improvement and is sufficient for many applications. For more detailed studies of nuclear properties, it is, however, desirable to use a more physical nuclear distribution, such as the Fermi and the Fourier-Bessel distributions described below. 

Although a number of possible applications of the Mossbauer effect have been suggested in the previous chapters, it is worthwhile to consider its use in general terms before developing the theme of more specific chemical application. Generally speaking, three broad areas can be defined in addition to that of the basic phenomenon of resonant absorption itself namely relativity and general physics, nuclear physics, and solid-state physics and chemistry. 

Interest in the actinides stems from the importance of measuring the physical nuclear constants required for the study of the nuclear structure in this region of comparative instability. Few low-energy levels are conveniently populated by a radioactive parent, but the successful and detailed studies with Np using both and Am parents have stimulated the use of more difficult techniques such as Coulomb excitation. Consequently the 2 Th, Pa, U, and Am resonances have now also been detected. Full details of the known nuclear parameters of these nuclides are tabulated in Appendix I. 

Atomic Data and Nuclear Data Tables — This is a bimonthly journal containing compilations of data in atomic physics, nuclear physics, and related fields, [www.science direct.eom/science/journal/0092640X]... 

The pres it understanding of processes in the interior of stars is the result of combined efforts from many scientific disciplines such as hydrodynamics, plasma physics, nuclear physics, nuclear chemistry and not least astrophysics. To understand what is going on in the inaccessible interior of a star we must make a model of the star which explains the known data mass, diameter, luminosity, surface temperature and surface composition. The development of such a model normally starts with an assumption of how elemental conqx)sition varies with distance from the center. By solving the difierential equations for pressure, mass, tenq>erature, luminosity and nuclear reactions from the surface (where these parameters are known) to the star s center and adjusting the elemental composition model until zero mass and zero luminosity is obtained at the center one arrives at a model for the star s interior. The model developed then allows us to extrapolate the star s evolution backwards and forwards in time with some confidence. Figure 17.4 shows results from such modelling of the sun. 

Calorimeter (low energy physics, nuclear physics) high varies > 300... 

H. Feshbach, Theoretical Nuclear Physics Nuclear Reactions (Wiley, New York, 1992). 

Winter, K. History. In Neutrino Physics, Cambridge Monographs on Particle Physics, Nuclear Physics and Cosmology, vol. 14, 2nd edn. Chap. 1, pp. 4-5. Cambridge University Press, Cambridge (2000). Paperback Edition 2008... 

In reviewing software developed in association with nuclear science and technology programs, or directed to the solution of research and engineering problems in the nuclear field, one is struck with the pervasiveness of these efforts. The software discussion up to this point has been concerned with developments which are generally regarded as systems software, as opposed to applications. The final section of this software review takes a look at selected computer-based applications. The intent is not to describe software developed for the solution of specific reactor physics, nuclear science and... 

Generally, the interpretation of Mossbauer parameters is important for general physics, nuclear physics and solid state physics and chemistry. In the field of... 

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