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Charged Particle and Photon Interactions with Matter offers
in-depth perspectives on phenomena of ionization and excitation
induced by charged particle and photon interactions with matter in
vivo and in vitro. This reference probes concepts not only in
radiation and photochemistry, but also in radiation physics,
radiation biochemistry, and radiation biology as well as recent
applications in medicine and material, environmental, space, and
biological science and engineering. It studies reports on the
interactions of high-energy photons, specifically in the vacuum
ultraviolet-soft X-ray region to offer fundamental information on
the primary processes of the interactions of charged particles with
matter.
Building on Mozumder's and Hatano's Charged Particle and Photon
Interactions with Matter: Chemical, Physicochemical, and Biological
Consequences with Applications (CRC Press, 2004), Charged Particle
and Photon Interactions with Matter: Recent Advances, Applications,
and Interfaces expands upon the scientific contents of the previous
volume by covering state-of-the-art advances, novel applications,
and future perspectives. It focuses on relatively direct
applications used mainly in radiation research fields as well as
the interface between radiation research and other fields. The book
first explores the latest studies on primary processes (the
physical stage), particularly on the energy deposition spectra and
oscillator strength distributions of molecules interacting with
charged particles and photons. Other studies discussed include the
use of synchrotron radiation in W-value studies and the progress
achieved with positrons and muons interacting with matter. It then
introduces new theoretical studies on the physicochemical and
chemical stages that describe the behavior of electrons in liquid
hydrocarbons and the high-LET radiolysis of liquid water. The book
also presents new experimental research on the physicochemical and
chemical stages with specific characteristics of matter or specific
experimental conditions, before covering new experimental studies
on the biological stage. The last set of chapters focuses on
applications in health physics and cancer therapy, applications to
polymers, the applications and interface formation in space science
and technology, and applications for the research and development
of radiation detectors, environmental conservation, plant breeding,
and nuclear engineering. Edited by preeminent scientists and with
contributions from an esteemed group of international experts, this
volume advances the field by offering greater insight into how
charged particles and photons interact with matter. Bringing
together topics across a spectrum of scientific and technological
areas, it provides clear explanations of the dynamic processes
involved in and applications of interface formation.
Charged Particle and Photon Interactions with Matter offers
in-depth perspectives on phenomena of ionization and excitation
induced by charged particle and photon interactions with matter in
vivo and in vitro. This reference probes concepts not only in
radiation and photochemistry, but also in radiation physics,
radiation biochemistry, and radiation biology as well as recent
applications in medicine and material, environmental, space, and
biological science and engineering. It studies reports on the
interactions of high-energy photons, specifically in the vacuum
ultraviolet-soft X-ray region to offer fundamental information on
the primary processes of the interactions of charged particles with
matter.
Building on Mozumder's and Hatano's Charged Particle and Photon
Interactions with Matter: Chemical, Physicochemical, and Biological
Consequences with Applications (CRC Press, 2004), Charged Particle
and Photon Interactions with Matter: Recent Advances, Applications,
and Interfaces expands upon the scientific contents of the previous
volume by covering state-of-the-art advances, novel applications,
and future perspectives. It focuses on relatively direct
applications used mainly in radiation research fields as well as
the interface between radiation research and other fields. The book
first explores the latest studies on primary processes (the
physical stage), particularly on the energy deposition spectra and
oscillator strength distributions of molecules interacting with
charged particles and photons. Other studies discussed include the
use of synchrotron radiation in W-value studies and the progress
achieved with positrons and muons interacting with matter. It then
introduces new theoretical studies on the physicochemical and
chemical stages that describe the behavior of electrons in liquid
hydrocarbons and the high-LET radiolysis of liquid water. The book
also presents new experimental research on the physicochemical and
chemical stages with specific characteristics of matter or specific
experimental conditions, before covering new experimental studies
on the biological stage. The last set of chapters focuses on
applications in health physics and cancer therapy, applications to
polymers, the applications and interface formation in space science
and technology, and applications for the research and development
of radiation detectors, environmental conservation, plant breeding,
and nuclear engineering. Edited by preeminent scientists and with
contributions from an esteemed group of international experts, this
volume advances the field by offering greater insight into how
charged particles and photons interact with matter. Bringing
together topics across a spectrum of scientific and technological
areas, it provides clear explanations of the dynamic processes
involved in and applications of interface formation.
Pulse Radiolysis presents an in-depth discussion of the pulse
radiolysis technique, one of the most important and powerful means
for detecting transient and relaxation phenomena and following
their behavior in irradiated systems. The book covers the principle
of pulse radiolysis, identifies various kinds of pulse radiolysis
techniques, and discusses recent advancements in the field. The
text also discusses new experimental pulse radiolysis techniques
(basic and applied) in broad scientific fields such as physics,
chemistry, biology, and engineering. These techniques include
picosecond pulse radiolysis, single particle radiolysis, and
muon-induced transient phenomena. Pulse Radiolysis provides
essential information for all professionals involved with pulse
radiolysis research.
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