In this paper are illustrated the main features of tunneling travelling between two deuterons within a lattice. Considering thescreening effect due to lattice electrons we compare the d-d fusion rate evaluated from di...In this paper are illustrated the main features of tunneling travelling between two deuterons within a lattice. Considering thescreening effect due to lattice electrons we compare the d-d fusion rate evaluated from different authors assuming different screeningefficiency and different d-d potentials. Then, we propose an effective potential which describes very well the attractive contribution dueto Plasmon exchange between two deuterons and by means of it we will compute the d-d fusion rates for different energy values.展开更多
In this paper the main features of tunneling travelling are illustrated between two deuterons within a lattice.Considering the screening effect due to lattice electrons we compared the d-d fusion rate evaluated from d...In this paper the main features of tunneling travelling are illustrated between two deuterons within a lattice.Considering the screening effect due to lattice electrons we compared the d-d fusion rate evaluated from different authors assuming different screening efficiency and different d-d potentials.Then,we proposed an effective potential which describes very well the attractive contribution due to plasmon exchange between two deuterons and by means of it we will compute the d-d fusion rates for different energy values.展开更多
In this work, we wish to demonstrate that a reaction path as the following, dislocations, deformations due to thermodynamic stress and, finally, micro-crack occurrence, can enhance the process of fusion of the deutero...In this work, we wish to demonstrate that a reaction path as the following, dislocations, deformations due to thermodynamic stress and, finally, micro-crack occurrence, can enhance the process of fusion of the deuterons introduced into the lattice by deuterium loading. In fact, calculating the rate of deuteron-plasmon-deuteron fusion within a micro-crack, showed, together with an enhancement of the tunneling effect, an increase of at least 2-3 orders of magnitude compared to the probability of fusion on the no deformed lattice. In fact, strong electric fields can take place in the micro-crack and the deuterons are accelerated to the energy which are enough for the D-D tunnelling. These phenomena open the way to the theoretical hypothesis that a kind of chain reaction, catalyzed by the micro-cracks produced in the structure as a result of deuterium loading, can favour the process of deuteron-plasmon fusion.展开更多
文摘In this paper are illustrated the main features of tunneling travelling between two deuterons within a lattice. Considering thescreening effect due to lattice electrons we compare the d-d fusion rate evaluated from different authors assuming different screeningefficiency and different d-d potentials. Then, we propose an effective potential which describes very well the attractive contribution dueto Plasmon exchange between two deuterons and by means of it we will compute the d-d fusion rates for different energy values.
文摘In this paper the main features of tunneling travelling are illustrated between two deuterons within a lattice.Considering the screening effect due to lattice electrons we compared the d-d fusion rate evaluated from different authors assuming different screening efficiency and different d-d potentials.Then,we proposed an effective potential which describes very well the attractive contribution due to plasmon exchange between two deuterons and by means of it we will compute the d-d fusion rates for different energy values.
文摘In this work, we wish to demonstrate that a reaction path as the following, dislocations, deformations due to thermodynamic stress and, finally, micro-crack occurrence, can enhance the process of fusion of the deuterons introduced into the lattice by deuterium loading. In fact, calculating the rate of deuteron-plasmon-deuteron fusion within a micro-crack, showed, together with an enhancement of the tunneling effect, an increase of at least 2-3 orders of magnitude compared to the probability of fusion on the no deformed lattice. In fact, strong electric fields can take place in the micro-crack and the deuterons are accelerated to the energy which are enough for the D-D tunnelling. These phenomena open the way to the theoretical hypothesis that a kind of chain reaction, catalyzed by the micro-cracks produced in the structure as a result of deuterium loading, can favour the process of deuteron-plasmon fusion.
