Interior adsorption, channel collimation, and nuclear fusion in solids

Abstract

The physical mechanism of strong body adsorption of solid palladium to hydrogen $^{1}\mathrm{H}$ and/or deuterium $^{2}\mathrm{D}$ atoms is discussed semiquantitatively. The feasibility of nuclear fusion between adsorbed $^{2}\mathrm{D}$ atoms in solids and incident fast deuterons $^{2}\mathrm{D}^{+}$ is discussed in light of the strong adsorption to $^{2}\mathrm{D}$ together with the ``channel-collimation effect'' of single-crystal Pd.

Related Papers

• → Long-range optical triangulation utilising collimated probe beam(1995)13 cited
• → The analysis of divergence angle of collimated beams(2017)4 cited
• → Constructing the large-scale collimating solar simulator with a light half-divergence angle <1° using only collimating radiation modules(2023)1 cited
• → Freeform micro optics for compound collimated beam shaping(2014)1 cited
• Studying on the critical technology of 4×1 Collimation light arrays(2010)