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This book offers a detailed examination of the latest work on the potential of polarized fuel to realize the vision of energy production by nuclear fusion. It brings together contributions from nuclear physicists and fusion physicists with the aims of fostering exchange of information between the two communities, describing the current status in the field, and examining new ideas and projects under development. It is evident that polarized fuel can offer huge improvements for the first generation of fusion reactors and open new technological possibilities for future generations, including…mehr
This book offers a detailed examination of the latest work on the potential of polarized fuel to realize the vision of energy production by nuclear fusion. It brings together contributions from nuclear physicists and fusion physicists with the aims of fostering exchange of information between the two communities, describing the current status in the field, and examining new ideas and projects under development.
It is evident that polarized fuel can offer huge improvements for the first generation of fusion reactors and open new technological possibilities for future generations, including neutron lean reactors, which could be the most popular and sustainable energy production option to avoid environmental problems. Nevertheless, many questions must be resolved before polarized fuel can be used for energy production in the different reactor types. Readers will find this book to be a stimulating source of information on the key issues. It is based on contributions from leading scientists delivered at the meetings “Nuclear Fusion with Polarized Nucleons” (Trento, November 2013) and “PolFusion” (Ferrara, July 2015).
Giuseppe Ciullo is a Professor at the Department of Physics and Earth Sciences, Ferrara University, Italy. He previously undertook a fellowship at the national laboratory LNL-INFN (1994–96) and was a researcher at CeFSA – CNR (1996–2000). His recent interests include polarized nuclear targets and their use in fundamental nuclear physics in different experimental collaborations: HERMES, OLYMPUS, PAX, JEDI TRIC, and PolFusion.
Ralf Engels has been a scientific staff member of the Institute for Nuclear Physics (IKP), Research Center Jülich, Germany, since 2006. He obtained his PhD from the University of Cologne in 2002 before working as a postdoc at IKP. His interests are polarized targets, ion sources, and polarimeters for experiments at accelerators. In parallel, he is using a Lamb-shift polarimeter for atomic and molecular physics. He is a member of ANKE, WASA, PAX, JEDI, BOB, and the PolFusion collaboration.
Markus Büscher is a Professor at the Institute for Laser and Plasma Physics, Heinrich Heine University, Düsseldorf, Germany and a staff member at the Peter-Grünberg Institut (PGI-6), Research Center Jülich, Germany. His recent research activity has included experiments on laser-induced particle acceleration and experiments with the WASA spectrometer at COSY. He is a member of the ANKE/COSY, PANDA/HESR, and WASA-at-COSY collaborations.
Alexander Vasilyev is Head of the Cryogenic and Superconductive Technique Laboratory of the National Research Center "Kurchatov Institute" Petersburg Nuclear Physics Institute, Russia. He is also Deputy Head of the High-Energy Physics Department at the Institute. His interests are polarized gas targets, cryogenic targets, ions, and atomic beams. He is a spokesperson for the MuSun collaboration (PSI, Switzerland) and a member of the PolFusion collaboration.
Inhaltsangabe
G. CIULLO Polarized Fusion: still appealing chance, but what is still missing?.- H. PAETZ gen. SCHIECK Spin Physics and Polarized Fusion: where we stand.- A. VASSILYEV: The double-polarized DD-fusion experiment at PNPI.- R. ENGELS – Hyper-polarized deuterium molecules: An option to produce and store polarized fuel for first tests in a fusion reactor?.- M. BÜCHER - Will nuclear polarization survives in laser-induced plasmas?.- F. BOMBARDA - Relevant spatial and time scale in tokamaks.- R. GATTO - De-polarization effects in tokamak plasmas.- S. BARTALUCCI - Ion polarization in magnetic fields.- A.M. SANDORFI and A. D’ANGELO - Plans for a Direct in situ Measurement of Fuel Polarization Survival in the DIII-D Tokamak Plasma.- J.- P. DIDELEZ – DT polarization in ICF. M. TEMPORAL - Modification of the ignition conditions for Inertial Confinement Fusion targets with polarized Deuterium-Tritium fuel.- D. TOPORKOV - Polarization of molecule: what we can learn from the nuclear physics efforts?.- N. COLONNA and N. IPPOLITO - Ion sources for fusion experiments.
G. CIULLO Polarized Fusion: still appealing chance, but what is still missing?.- H. PAETZ gen. SCHIECK Spin Physics and Polarized Fusion: where we stand.- A. VASSILYEV: The double-polarized DD-fusion experiment at PNPI.- R. ENGELS - Hyper-polarized deuterium molecules: An option to produce and store polarized fuel for first tests in a fusion reactor?.- M. BÜCHER - Will nuclear polarization survives in laser-induced plasmas?.- F. BOMBARDA - Relevant spatial and time scale in tokamaks.- R. GATTO - De-polarization effects in tokamak plasmas.- S. BARTALUCCI - Ion polarization in magnetic fields.- A.M. SANDORFI and A. D'ANGELO - Plans for a Direct in situ Measurement of Fuel Polarization Survival in the DIII-D Tokamak Plasma.- J.- P. DIDELEZ - DT polarization in ICF. M. TEMPORAL - Modification of the ignition conditions for Inertial Confinement Fusion targets with polarized Deuterium-Tritium fuel.- D. TOPORKOV - Polarization of molecule: what we can learn from the nuclear physics efforts?.- N. COLONNA and N. IPPOLITO - Ion sources for fusion experiments.
G. CIULLO Polarized Fusion: still appealing chance, but what is still missing?.- H. PAETZ gen. SCHIECK Spin Physics and Polarized Fusion: where we stand.- A. VASSILYEV: The double-polarized DD-fusion experiment at PNPI.- R. ENGELS – Hyper-polarized deuterium molecules: An option to produce and store polarized fuel for first tests in a fusion reactor?.- M. BÜCHER - Will nuclear polarization survives in laser-induced plasmas?.- F. BOMBARDA - Relevant spatial and time scale in tokamaks.- R. GATTO - De-polarization effects in tokamak plasmas.- S. BARTALUCCI - Ion polarization in magnetic fields.- A.M. SANDORFI and A. D’ANGELO - Plans for a Direct in situ Measurement of Fuel Polarization Survival in the DIII-D Tokamak Plasma.- J.- P. DIDELEZ – DT polarization in ICF. M. TEMPORAL - Modification of the ignition conditions for Inertial Confinement Fusion targets with polarized Deuterium-Tritium fuel.- D. TOPORKOV - Polarization of molecule: what we can learn from the nuclear physics efforts?.- N. COLONNA and N. IPPOLITO - Ion sources for fusion experiments.
G. CIULLO Polarized Fusion: still appealing chance, but what is still missing?.- H. PAETZ gen. SCHIECK Spin Physics and Polarized Fusion: where we stand.- A. VASSILYEV: The double-polarized DD-fusion experiment at PNPI.- R. ENGELS - Hyper-polarized deuterium molecules: An option to produce and store polarized fuel for first tests in a fusion reactor?.- M. BÜCHER - Will nuclear polarization survives in laser-induced plasmas?.- F. BOMBARDA - Relevant spatial and time scale in tokamaks.- R. GATTO - De-polarization effects in tokamak plasmas.- S. BARTALUCCI - Ion polarization in magnetic fields.- A.M. SANDORFI and A. D'ANGELO - Plans for a Direct in situ Measurement of Fuel Polarization Survival in the DIII-D Tokamak Plasma.- J.- P. DIDELEZ - DT polarization in ICF. M. TEMPORAL - Modification of the ignition conditions for Inertial Confinement Fusion targets with polarized Deuterium-Tritium fuel.- D. TOPORKOV - Polarization of molecule: what we can learn from the nuclear physics efforts?.- N. COLONNA and N. IPPOLITO - Ion sources for fusion experiments.
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