Condensed Matter

1309 Submissions

[7] viXra:1309.0148 [pdf] submitted on 2013-09-22 02:11:49

Supersymmetry in Single Crystals

Authors: Parvaneh Ravadgar
Comments: 10 Pages.

This study compares some fundamental concepts in the fields of crystallography and quantum mechanics. Edge dislocations in a single crystal behave as fermions if they repel each other and behave as bosons if they attract each other. The bosonic and fermionic characteristics of edge dislocations enable it to study some fundamental properties of soliton supersymmetry.
Category: Condensed Matter

[6] viXra:1309.0144 [pdf] replaced on 2013-09-21 00:14:40

On the Symmetric Character of the Thermal Conductivity Tensor

Authors: Ali R. Hadjesfandiari
Comments: 15 Pages.

In this paper, the symmetric character of the conductivity tensor for linear heterogeneous anisotropic material is established as the result of arguments from tensor analysis and linear algebra for Fourier’s heat conduction. The non-singular nature of the conductivity tensor plays the fundamental role in establishing this statement.
Category: Condensed Matter

[5] viXra:1309.0143 [pdf] submitted on 2013-09-20 03:04:59

River Water Flow Regulation Device

Authors: Edmundas Jauniskis
Comments: 2 Pages.

An analysis of available literature (1), related to non-affluent hydroelectric power plant, has revealed that the main difficulty of installation of this technique is a low flow speed of the majority of plain rivers. So, I offer my own invention that will allow changing the current situation and to increase a flow speed of every river that could be exploited for the aim to generate electric power more efficiently.
Category: Condensed Matter

[4] viXra:1309.0091 [pdf] submitted on 2013-09-13 21:55:05

Future Energy/Paradigm Revolutions from Ultra-cold Matter and Nanoscience Discoveries: Historical Context of Current Research and Overview of Developing Trends

Authors: Donald Reed
Comments: 17 Pages.

In the last three decades, the confluence of two streams of research have resulted in some of the most heretofore unknown, innovative, energy-transformative and possible paradigm-shifting developments in the history of science and technology. These are due to both the fruits of the nano-science revolution and those stemming from ultra-cold matter applications as exemplified by the Bose-Einstein condensate. Through examining a wealth of research from each of these areas, some of surprisingly serendipitous nature, this paper will attempt to show that many of the discoveries that have been made in these arenas, point to possible new understanding of the quantum engine that underpins physical reality, and its relationship to electromagnetism and gravitation at both microscopic and large-scale regimes of nature. It is hoped that ultimately this new knowledge will subsequently also guide us in achieving the coveted goal in our quest to harvest energy from the quantum vacuum.
Category: Condensed Matter

[3] viXra:1309.0072 [pdf] submitted on 2013-09-10 20:41:51

Nuclear Products of Cold Fusion by TSC Theory

Authors: Akito Takahashi
Comments: 6 Pages. Preprint for submittal to JCMNS for ICCF18 Proceedings

Prediction of nuclear products by cold fusion events either for metal-deuterium system (Pd-D) and metal-protium system (Ni-H)is made by the TSC theory. The nucleon halo model of intermediate excited states is applied for final state inetractions. For metal-D system cold fusion, 23.8 MeV per He-4 generation with BOLEP and minor alpha peaks is predicted. For metal-H system, He-3 and D products with 7-2 MeV per event with very weak secondary gamma and neutron emission is predicted. Comparisons with experimental claims are discussed.
Category: Condensed Matter

[2] viXra:1309.0070 [pdf] submitted on 2013-09-10 21:01:13

Anomalous Exothermic and Endothermic Data Observed by Nano-Ni-Composite Samples

Authors: A. Takahashi, A. Kitamura, R. Seto, Y. Fujita, H. Sakoh, Y. Miyoshi, A. Taniike, Y. Furuyama, T. Murota, T. Tahara
Comments: 5 Pages. preprint of submittal to JCMNS for ICCF18 Proceedings

Cu-Ni nano-composite samples showed no excess heat nor meaningfully visible D(H)-loading at room temprature. At elevated temperatures more than 250 deg C, anomalous excess heat lasted for weeks was observed with very large integrated heat as 800 eV per Ni-atom and 600 eV per H-sorption/desorption. Cu0.08Ni0.36/ZrO2 samples gave 10 fold larger excess heat than pure-Ni/ZrO2 samples and 4 fold larger than Cu0.21Ni0.21/ZrO2 samples. Anomalous endothermic effect with abrupt D(H)-desorption was repeatedly observed for pretreatment runs.
Category: Condensed Matter

[1] viXra:1309.0046 [pdf] replaced on 2016-07-18 20:57:07

New Theory on the Hall Effect

Authors: DaeHyeon KANG
Comments: 6 Pages.

In Hall Effect first found by Edwin Hall in 1897, Plus Hall Effect has been measured that is not explained with electron movement only. As a method to explain this effect, a concept of positive hall has been introduced but it has an obvious physical error. Thus, this researcher proposes a new theory from a viewpoint that distribution of conductive electrons is varied by Lorentz Force with isotope separation equation used in nuclear physics and in atom unit volume within solid and results in difference of level to generate Hall voltage.
Category: Condensed Matter