The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. Bücher > Fremdsprachige Bücher > Englische Bücher 220 x 150 x 9 mm , LAP LAMBERT Academic Publishing, Taschenbuch, LAP LAMBERT Academic Publishing<
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. Buch (fremdspr.) David S. Whittaker Taschenbuch, LAP LAMBERT Academic Publishing, 29.07.2010, LAP LAMBERT Academic Publishing, 2010<
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. New Textbooks>Trade Paperback>Science>Physics>Physics, LAP Lambert Academic Publishing Core >1 >T<
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. New Textbooks>Trade Paperback>Science>Physics>Physics, KS OmniScriptum Publishing Core >1 >T<
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Radiative Opacity of Dense Iron Plasma ab 58.99 € als Taschenbuch: Theory Experimental Determinations and Ablation Rate Investigations using X-Ray Lasers. Aus dem Bereich: Bücher, Wissens… Mehr…
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. Bücher > Fremdsprachige Bücher > Englische Bücher 220 x 150 x 9 mm , LAP LAMBERT Academic Publishing, Taschenbuch, LAP LAMBERT Academic Publishing<
Nr. A1013713277. Versandkosten:Lieferzeiten außerhalb der Schweiz 3 bis 21 Werktage, , Versandfertig innert 1 - 2 Wochen, zzgl. Versandkosten. (EUR 17.55)
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. Buch (fremdspr.) David S. Whittaker Taschenbuch, LAP LAMBERT Academic Publishing, 29.07.2010, LAP LAMBERT Academic Publishing, 2010<
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. New Textbooks>Trade Paperback>Science>Physics>Physics, LAP Lambert Academic Publishing Core >1 >T<
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion … Mehr…
The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System. New Textbooks>Trade Paperback>Science>Physics>Physics, KS OmniScriptum Publishing Core >1 >T<
Radiative Opacity of Dense Iron Plasma ab 58.99 € als Taschenbuch: Theory Experimental Determinations and Ablation Rate Investigations using X-Ray Lasers. Aus dem Bereich: Bücher, Wissens… Mehr…
Radiative Opacity of Dense Iron Plasma ab 58.99 € als Taschenbuch: Theory Experimental Determinations and Ablation Rate Investigations using X-Ray Lasers. Aus dem Bereich: Bücher, Wissenschaft, Physik, Medien > Bücher, LAP LAMBERT Academic Publishing<
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The radiative properties of plasmas are governed by opacity and emissivity. Accurate determinations of these quantities are of relevance, therefore, to inertially confined nuclear fusion (particularly indirect drive schemes) and to resolving discrepancies between the observed behavior of astrophysical plasmas and theory. This work summarises achievements in the field over the last few decades. It also presents the results of experiments to (i) determine the opacity of warm to hot, dense iron plasma and (ii) investigate laser ablation rates using the transmission through sample targets of x-ray laser pulses. These results are compared with the predictions of computer simulations. Laser ablation rates are of relevance to direct drive nuclear fusion and other technologies such as laser welding and materials deposition. Experimental work was undertaken using a nickel-like silver x-ray laser (XRL) of 13.9 nm wavelength at the Rutherford Appleton Laboratory and a 21.2 nm neon-like zinc XRL at the Prague Asterix Laser System.
Detailangaben zum Buch - Radiative Opacity of Dense Iron Plasma David S. Whittaker Author
EAN (ISBN-13): 9783838376820 ISBN (ISBN-10): 383837682X Gebundene Ausgabe Taschenbuch Erscheinungsjahr: 2010 Herausgeber: LAP Lambert Academic Publishing Core >1 >T 156 Seiten Gewicht: 0,246 kg Sprache: eng/Englisch
Buch in der Datenbank seit 2008-06-16T10:08:14+02:00 (Vienna) Detailseite zuletzt geändert am 2023-12-14T12:38:21+01:00 (Vienna) ISBN/EAN: 9783838376820
ISBN - alternative Schreibweisen: 3-8383-7682-X, 978-3-8383-7682-0 Alternative Schreibweisen und verwandte Suchbegriffe: Autor des Buches: david whittaker, ker david, appleton, rutherford, david silver Titel des Buches: plasma city, rays theory and experiment, laser ablation