Core fusion reactor is interacted with spherical geometry for fuel to spherical symmetrical laser pulse of less than ten picoseconds duration, where energy flux density is greater than ten megajoule per centimeter square
The core fusion reactor is interacted with spherical geometry for the fuel to a spherical symmetrical laser pulse of less than 10 picoseconds duration and produces a fusion flame. The energy flux density in the interaction region at the fuel surface is greater than 10 megajoule per centimeter square...
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Main Authors | , |
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Format | Patent |
Language | English German |
Published |
03.07.2014
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Subjects | |
Online Access | Get full text |
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Summary: | The core fusion reactor is interacted with spherical geometry for the fuel to a spherical symmetrical laser pulse of less than 10 picoseconds duration and produces a fusion flame. The energy flux density in the interaction region at the fuel surface is greater than 10 megajoule per centimeter square. The fuel fusion has the density of the condensed material. The fusion fuel is made from a mixture of isotopes with a proton number of less than six. The fuel is made from a mixture of deuterium and tritium, a mixture of hydrogen and boron isotope, and a mixture of hydrogen and lithium isotope.
Zusammenfassung: Fusionsreaktoren getrieben durch von ultrahoher Plasmabeschleunigung erzeugte Plasmablöcke mittels Einstrahlung von Laserpulsen von Pikosekunden Dauer und Petawatt Leistung auf festköperdichten oder mäßig komprimiertem Kernbrennstoff, wobei Probleme von seitlichen Reaktionsverlusten vermieden werden durch sphärische Geometrie der eingestahlten Laserpulse, und wobei die Reaktion von Wasserstoff mit Bor-11 Kernenergie liefert, bei der weniger Radioaktivität pro gewonnener Energie erzeugt wird als beim Verbrennen von Kohle. |
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Bibliography: | Application Number: DE20121025244 |