Condensed Matter

2201 Submissions

[5] viXra:2201.0123 [pdf] submitted on 2022-01-19 07:57:35

Cooper-Pair Breaking

Authors: Sylwester Kornowski
Comments: 6 Pages.

Theoretical results obtained in this paper are perfectly consistent with the experimental data presented by Mannila, et al. (2021). We described the origin of three new formulae for the normalized number density of quasiparticles, relaxation times of bursts, and statistical distribution of the broken Cooper pairs per burst. We show that the Cooper-pair breaking is due to the nuclear weak interactions of the spacetime condensates created in the core of nucleons.
Category: Condensed Matter

[4] viXra:2201.0041 [pdf] submitted on 2022-01-08 05:11:22

Constitution of a Molecular Structure that Hardly Generates a Non-Free Electron Orbital Region is Effective for the Creation of Superconductors with Higher Tc

Authors: Kazuo Abe
Comments: 3 Pages.

In the present study, we started from the idea that the essence of the electrical resistance is that the lattice vibration generates non-free electron orbital regions, which induces scattering of free electrons. This consideration has led to the conclusion that the establishment of molecular structures that hardly form non-free electron orbital regions is effective for the creation of superconductors with higher superconducting transition temperature (Tc).
Category: Condensed Matter

[3] viXra:2201.0037 [pdf] submitted on 2022-01-08 11:31:50

The Three Phonon Fields in Superconductors

Authors: Sylwester Kornowski
Comments: 8 Pages.

The Scale-Symmetric Theory (SST) shows that the internal dynamics of the core of proton leads to superconductivity. The first, second and third phonon fields are created due to the electroweak interactions of the oscillation masses, radiation masses and masses of the electron-positron pairs, respectively. The composite phonons (they are the entangled spacetime condensates) are responsible for creation of both the spin-0 Cooper pairs and boson condensate composed of the Cooper pairs. We calculated that at atmospheric pressure, critical temperature of the Type II superconductors can be from 4.4 K up to 148 K. We calculated also that at extreme pressure, for relative volume equal to 0.67, critical temperature is 304 K. We show that it is impossible to make a material that is a superconductor at room-temperature and atmospheric pressure.
Category: Condensed Matter

[2] viXra:2201.0021 [pdf] submitted on 2022-01-06 12:03:57

An Arabic Dictionary: "Al-Mujam al-W\'{a}fi" Or, "Adhunik Arabi-Bangla Abhidhan" and the Onsager's Solution Second Part

Authors: Anindya Kumar Biswas
Comments: forty five pages of supplementary materials attached

We continue to consult an Arabic dictionary: "al-Mujam al-w\'{a}fi" or, "adhunik arabi-bangla abhidhan" by Dr. M. Fazlur Rahman. Here we count all the words initiating with a letter, including plural, feminine gender and appearing in other letters' sections. We draw the natural logarithm of the number of words, normalised, starting with a letter vs the natural logarithm of the rank of the letter. We find that the words underlie a magnetisation curve. The magnetisation curve i.e. the graph of the reduced magnetisation vs the reduced temperature is the exact Onsager solution of the two dimensional Ising model in the absence of external magnetic field.
Category: Condensed Matter

[1] viXra:2201.0005 [pdf] submitted on 2022-01-01 18:57:18

The Reasons for the Deceleration of Photons in Matter from the Standpoint of the Theory of the Elastic Universe (Hypothesis)

Authors: Alexander Dubinyansky, Pavel Churlyaev
Comments: 2 Pages. dubinyansky@mail.ru; http://universe100.narod.ru/

The reasons for the slowing down of light in matter are stated from the standpoint of the theory of the Elastic Universe.
Category: Condensed Matter