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The book presents an advanced tool for experimentalists using
spectral lineshapes for diagnostics of laboratory or astrophysical
plasmas, and for theorists helping the experimentalists in
interpreting the experimental line profiles. It significantly
expands the scope of parameters of plasmas and/or fields in it that
can be measured. For some parameters, the book presents new, more
advanced diagnostic methods than the methods covered in the
previous books.
The book presents the following counterintuitive theoretical
results breaking several paradigms of quantum mechanics and
providing alternative interpretations of some important phenomena
in atomic and molecular physics. 1) Singular solutions of the
Schroedinger and Dirac equations should not have been always
rejected: they can explain the experimental high-energy tail of the
linear momentum distribution in the ground state of hydrogenic
atoms. Application: a unique way to test intimate details of the
nuclear structure by performing atomic (rather than nuclear)
experiments and calculations. 2) Charge exchange is not really an
inherently quantal phenomenon, but rather has classical roots.
Application: continuum lowering in plasmas. 3) The most challenging
problem of classical physics that led to the development of quantum
mechanics - the failure to explain the stability of atoms - can be
solved within a classical formalism that has its roots in Dirac's
works. The underlying physics can be interpreted as a
non-Einsteinian time dilation. 4) In two-electron atoms/ions, the
spin-spin interaction (singular in its nature), usually considered
unimportant, makes a significant contribution to the binding
energy. 5) In magnetized plasmas the standard Inglis-Teller
concept, concerning the number of observed lines in spectral series
of hydrogen, breaks down. Application: new plasma diagnostic. 6)
Extrema in transition energies of molecules/quasimiolecules can
result in dips (rather than usually considered satellites) within
spectral lines. Application: the experimental determination of
rates of charge exchange between multicharged ions - important for
magnetic fusion in Tokamaks, for population inversion in the soft
x-ray and VUV ranges, for ion storage devices, and for
astrophysics.
Plasma Spectroscopy systematically develops the foundations of
spectroscopy for plasmas subjected to quasi-monochromatic electric
fields in the microwave or visible range. Such fields may be due to
longitudinal Langmuir waves or low hybrid oscillations, which are
excited in pulsed discharged or by high-current beams of charged
particles. Even more important are the transverse fields present in
the plasmas of tokamaks, laser fusion, and technological microwave
discharges. This book is intended for researchers dealing with
plasma spectroscopy, plasma diagnostics, high frequency and
microwave discharges, laser induced discharges, particle and
laser-beam interactions with plasmas, controlled fusion, and
ionospheric and astrophysical plasmas. It describes methods for
measuring the field and plasma parameters and discusses their
practical application. It also presents new results on
nonpertubative analysis of the interaction of quantum systems with
a strong radiation field.
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Loot
Nadine Gordimer
Paperback
(2)
R383
R310
Discovery Miles 3 100
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