Cooling profiles of laser induced temperature fields for super conducting vanadium nitrate products
No Thumbnail Available
Date
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Description
The flexibility of vanadium nitrate makes it a
good constituent for emerging superconductors. Its thermal
instability engenders a disordered structure when doped by
insulating constituents. The physics of the heat source i.e.
the probe laser was theoretical derived to avoid deficiency
of the superconducting material at low laser energy density.
The mathematical experimentation was accomplished by
queering the energy balance and heat conductivity of the
individual constituents of the reagent. In-depth analysis of
the layered distribution of laser induced temperature fields
was carried out by cooling the compound via the forced
convective cooling technique to about 150 °C. The material
was gradual heated via the laser probe to its superconducting
state. The structural defect which explained different
state of the thermal outcomes were explained and proven to
correspond with experimental outcomes. The temperature
distribution under the irradiating laser intensity (0.45 W)
shows an effective decay rate probability density function
which is peculiar to the concept of photoluminescence. The
dynamics of the electronic structure of thermally-excited
superconducting materials is hinged on the complementary
stoichiometry signatures, thermal properties amongst
others. The maximum possible critical temperatures of the
inter-layer were calculated to be about 206 K.
Keywords
Q Science (General), QC Physics