Physics with fast molecular ions
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چکیده
منابع مشابه
APHYSEXP Experimental Atomic Physics with Heavy Ions
APHY-EXP-01 The nuclear charge radii of the radioactive lithium isotopes 197 Experiment Proposal Number: U157 Authors: Sánchez, R.; Albers, D.; Behr, J.; Bricault, P.; Bushaw, B.; Dax, A.; Dilling, J.; Dombsky, M.; Drake, G.; Ewald, G.; Götte, S.; Kirchner, R.; Kluge, H.-J.; Kühl, T.; Lassen, J.; Levi, C. D. P.; Nörtershäuser, W.; Pearson, M.; Prime, E.; Ryjkov, V.; Wojtaszeck, A.; Yan, Z.-C.; ...
متن کاملAPHYSEXP Experimental Atomic Physics with Heavy Ions
APHY-EXP-01 The nuclear charge radii of the radioactive lithium isotopes 197 Experiment Proposal Number: U157 Authors: Sánchez, R.; Albers, D.; Behr, J.; Bricault, P.; Bushaw, B.; Dax, A.; Dilling, J.; Dombsky, M.; Drake, G.; Ewald, G.; Götte, S.; Kirchner, R.; Kluge, H.-J.; Kühl, T.; Lassen, J.; Levi, C. D. P.; Nörtershäuser, W.; Pearson, M.; Prime, E.; Ryjkov, V.; Wojtaszeck, A.; Yan, Z.-C.; ...
متن کاملPhysics with colder molecular ions: The Heidelberg Cryogenic Storage Ring CSR
A novel cryogenic electrostatic storage ring is planned to be built at the Max-Planck Institute for Nuclear Physics in Heidelberg. The machine is expected to operate at low temperatures (∼ 2 K) and to store beams with kinetic energies between 20 to 300 keV. An electron target based on cooled photocathode technology will serve as a major tool for the study of reactions between molecular ions and...
متن کاملDesorption of Secondary Negative Ions Induced by Fast Heavy Incident Atomic and Molecular Ions
Fast heavy atomic and molecular ions have been used as i n c i d e n t ions i n secondary i o n desorpt ion studies. A number o f ions such as c', CZ+¶ C3+. ~ r + , CH+, CH3+, C3H3+, C4H9+¶ C H +, CO+, 02+¶ C02+, CF+, CF3+¶ C3F5+ and C F + have been produced and accelerated i n the 7 15 4 7 energy range 600 keV 3.9 MeV. The molecular i n c i d e n t ions g ive r i s e t o h igh measured seconda...
متن کاملFast Ignitor Concept with Light Ions
A short-laser-pulse driven ion flux is examined as a fast ignitor candidate for inertial confinement fusion. Ion ranges in a hot precompressed fuel are studied. The ion energy and the corresponding intensity of a short laser pulse are estimated for the optimum ion range and ion energy density flux. It is shown that a lightion beam triggered by a few-hundreds-kJ laser at intensities of ~10 21 W/...
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ژورنال
عنوان ژورنال: Vacuum
سال: 1989
ISSN: 0042-207X
DOI: 10.1016/0042-207x(89)90241-8