J. Kasagi scite author profile

Fusion reactions 6 Li(d,α) 4 He and 2 H(d,p) 3 H were measured in liquid Li. An ultrasonic target system was developed to form acoustic cavitation bubbles in liquid Li as an additional target. The material uncertainties of the target surface, which have been noted in solid target experiments, were completely rejected because contaminants could be removed in the liquid phase. The Li + d reaction was not affected by the cavitation process, and the derived screening potential was U s = 543 ± 38(sta.) +83 −153 (sys.) eV. This value can be explained by ionic Debye screening if liquid Li is regarded as a low-temperature dense plasma. The d + d reaction was found to be enhanced several times by Li cavitation, whereas the yield of the Li + d reaction remained constant; the ultrasonic effect depends strongly on the target conditions. The enhancement is caused not by Coulomb screening but by the high deuteron temperature in the cavity. The temperature was deduced from the energy dependence of the nuclear reaction enhancement rate as kT d = 590 ± 54(sta.) +676 −457 (sys.) eV. A kinematic analysis also yielded consistent results. Although no meaningful bubble fusion events were observed, extremely large reaction enhancements were occasionally observed.

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Electronic and Ionic Screening For Low-Energy Nuclear Reactions In Condensed Matter

Kasagi¹,

Yonemura²

2009

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Dismantling Work and Radiation Measurement of Used Accelerator Facility. Evaluation of Radioactivities Induced in the Shielding of the Neutron Scattering Fascility and Its Decomssioning.

Masumoto

Ohtsuki

Kasagi

et al. 1999

Jpn. J. Health Phys.

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J. Kasagi

Erratum: Radioactive Decay Speedup atT=5 K: Electron-Capture Decay Rate ofBe7Encapsulated in
Ohtsuki¹,
Ohno²,
Morisato³
et al. 2008
Phys. Rev. Lett.
15
9
29
0
View full text Add to dashboard Cite

Low-energy Li+d reactions with Li target in various phases

Publisher's Note: Acceleration of thed+dreaction in metal lithium acoustic cavitation with deuteron bombardment from 30 to 70 keV [Phys. Rev. C85, 054620 (2012)]

Electronic and Ionic Screening For Low-Energy Nuclear Reactions In Condensed Matter

Dismantling Work and Radiation Measurement of Used Accelerator Facility. Evaluation of Radioactivities Induced in the Shielding of the Neutron Scattering Fascility and Its Decomssioning.

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J. Kasagi

Erratum: Radioactive Decay Speedup atT=5 K: Electron-Capture Decay Rate ofBe7Encapsulated inOhtsuki1, Ohno2, Morisato3 et al. 2008Phys. Rev. Lett.159290View full textAdd to dashboardCite

Low-energy Li+d reactions with Li target in various phases

Publisher's Note: Acceleration of thed+dreaction in metal lithium acoustic cavitation with deuteron bombardment from 30 to 70 keV [Phys. Rev. C85, 054620 (2012)]

Electronic and Ionic Screening For Low-Energy Nuclear Reactions In Condensed Matter

Dismantling Work and Radiation Measurement of Used Accelerator Facility. Evaluation of Radioactivities Induced in the Shielding of the Neutron Scattering Fascility and Its Decomssioning.

Contact Info

Product

Resources

About

Erratum: Radioactive Decay Speedup atT=5 K: Electron-Capture Decay Rate ofBe7Encapsulated in
Ohtsuki¹,
Ohno²,
Morisato³
et al. 2008
Phys. Rev. Lett.
15
9
29
0
View full text Add to dashboard Cite