Re: [Vo]:BEC produced by magnetism
This is a very interesting concept. I would love to see if experimental evidence could show these micro-BECs in solids. Very cool paper.
RE: [Vo]:BEC produced by magnetism
When a 15 year old theoretical paper with rather important implications- if they were accurate in practice - has not be validated, nor the theoretical results put to practice, nor generated much interest among experts, and/or is rarely cited… one has to ask why? … and suspect the worst. From: CB Sites This is a very interesting concept. I would love to see if experimental evidence could show these micro-BECs in solids. Very cool paper.
RE: [Vo]:BEC produced by magnetism
. 21 / 30 CHAVES NETO, A. M. de Jesus and VERMA, O. P.. Estudo de geração de campo uniforme para modelagem eletromagnética. Rev. Bras. Geof. [online]. 1998, vol.16, n.1 ISSN 0102-261X. Access at: SciELO Brasil. 22 / 30 SCHNEIDER, André F. et al. Comparação entre resultados numéricos e experimentais para o campo magnético de cubas eletrolíticas de alumínio. Rem: Rev. Esc. Minas [online]. 2008, vol.61, n.3 ISSN 0370-4467. Access at: SciELO Brasil. 23 / 30 RAYMOND, Nicolas. Uniform Spectral Estimates for Families of Schrödinger Operators with Magnetic Field of Constant Intensity and Applications. Cubo [online]. 2010, vol.12, n.1 ISSN 0719-0646. Access at: SciELO Chile. 24 / 30 ÖCAL, Işıl; KALKAN, Tunaya and GüNAY, İsmail. Effects of alternating magnetic field on the metabolism of the healthy and diabetic organisms. Braz. arch. biol. technol. [online]. 2008, vol.51, n.3 ISSN 1516-8913. Access at: SciELO Brasil. 25 / 30 HERRERA, William J. and NIñO, J. Virgilio. Effect of a magnetic field on tunneling conductance in normal metal d-wave superconductor interfaces. Braz. J. Phys. [online]. 2006, vol.36, n.3b ISSN 0103-9733. Access at: SciELO Brasil. 26 / 30 FREIRE, J.A.K.; FREIRE, V.N.; FARIAS, G.A. and PEETERS, F.M.. Exciton trapping in a periodically modulated magnetic field. Braz. J. Phys. [online]. 2002, vol.32, n.2a ISSN 0103-9733. Access at: SciELO Brasil. 27 / 30 FERREIRA, A.A.; HELLER, M.V.A.P.; BAPTISTA, M.S. and CALDAS, I.L.. Statistics of turbulence induced by magnetic field. Braz. J. Phys. [online]. 2002, vol.32, n.1 ISSN 0103-9733. Access at: SciELO Brasil. 28 / 30 GARCíA-R., P.J.; MARTINEZ-C., J. and GUTIERREZ-D., E.A.. An on-chip magnetic probe based on MOSFET technology. Rev. mex. fis. [online]. 2010, vol.56, n.5 ISSN 0035-001X. Access at: SciELO México. 29 / 30 SáNCHEZ-SALCEDO, F. J. and SANTILLáN, A. The Parker instability in axisymmetric filaments: final equilibria with longitudinal magnetic field. Rev. mex. astron. astrofis [online]. 2011, vol.47, n.1 ISSN 0185-1101. Access at: SciELO México. 30 / 30 CALUCCI, Giorgio and DI PIAZZA, Antonino. Production of light particles by very strong and slowly varying magnetic fields. Braz. J. Phys. [online]. 2007, vol.37, n.2c ISSN 0103-9733. Access at: SciELO Brasil. From: Jones Beene [mailto:jone...@pacbell.net] Sent: Friday, August 22, 2014 8:41 AM To: vortex-l@eskimo.com Subject: RE: [Vo]:BEC produced by magnetism When a 15 year old theoretical paper with rather important implications- if they were accurate in practice - has not be validated, nor the theoretical results put to practice, nor generated much interest among experts, and/or is rarely cited… one has to ask why? … and suspect the worst. From: CB Sites This is a very interesting concept. I would love to see if experimental evidence could show these micro-BECs in solids. Very cool paper.
Re: [Vo]:BEC produced by magnetism
When I apply such reasoning to the Va'vra paper recently cited here, it causes me to ask exactly what do you mean? On Fri, Aug 22, 2014 at 8:41 AM, Jones Beene jone...@pacbell.net wrote: When a 15 year old theoretical paper with rather important implications- if they were accurate in practice - has not be validated, nor the theoretical results put to practice, nor generated much interest among experts, and/or is rarely cited… one has to ask why? … and suspect the worst. *From:* CB Sites This is a very interesting concept. I would love to see if experimental evidence could show these micro-BECs in solids. Very cool paper.
RE: [Vo]:BEC produced by magnetism
As Bob sez … from talking to Va’vra : he has actually changed his approach significantly in that time… meaning that a 15 year old theory, not yet reduced to practice, means that it may not be very accurate… From: Kevin O'Malley When I apply such reasoning to the Va'vra paper recently cited here, it causes me to ask exactly what do you mean?
[Vo]:BEC produced by magnetism
http://www.scielo.br/scielo.php?pid=S0103-9733200200024script=sci_arttext * Conclusions * We conclude that Bose-Einstein condensation of charged particles in a strong magnetic field is possible and leads to several new and interesting phenomena, as the occurrence of phase transition in presence of an external magnetic field, without a critical temperature. For low field intensity we have usual condensation, and for very strong fields, condensation is manifest again. The condensate in the strong magnetic field suggests the existence of superconductivity in extremely strong magnetic fields and the existence of a ferromagnetic-superconductive phase. This has interest in condensed matter physics. In astrophysics and cosmology we have also interesting consequences. It gives support to the conjectured existence of superfluid and superconductive phases in neutron stars [25]. It suggests also that at the electroweak phase transition, extremely strong magnetic fields may arise as a consequence of condensation and self-magnetization effects of the medium.
Re: [Vo]:BEC produced by magnetism
That is a good paper. I think we have BECs in our atmosphere along powerful cold fronts and in the eyewalls of hurricanes where all the electromagnetic effects come from as the strings of vacuum decay On Thursday, August 21, 2014, Axil Axil janap...@gmail.com wrote: http://www.scielo.br/scielo.php?pid=S0103-9733200200024script=sci_arttext * Conclusions * We conclude that Bose-Einstein condensation of charged particles in a strong magnetic field is possible and leads to several new and interesting phenomena, as the occurrence of phase transition in presence of an external magnetic field, without a critical temperature. For low field intensity we have usual condensation, and for very strong fields, condensation is manifest again. The condensate in the strong magnetic field suggests the existence of superconductivity in extremely strong magnetic fields and the existence of a ferromagnetic-superconductive phase. This has interest in condensed matter physics. In astrophysics and cosmology we have also interesting consequences. It gives support to the conjectured existence of superfluid and superconductive phases in neutron stars [25]. It suggests also that at the electroweak phase transition, extremely strong magnetic fields may arise as a consequence of condensation and self-magnetization effects of the medium.
Re: [Vo]:BEC produced by magnetism
Good paper. BECs and magnetism, hopefully nanomagnetism. . It gives support to the conjectured existence of superfluid and superconductive phases in neutron stars... what about condensed matter metal hydrides... giving rise to LENR? On Thu, Aug 21, 2014 at 3:48 PM, ChemE Stewart cheme...@gmail.com wrote: That is a good paper. I think we have BECs in our atmosphere along powerful cold fronts and in the eyewalls of hurricanes where all the electromagnetic effects come from as the strings of vacuum decay On Thursday, August 21, 2014, Axil Axil janap...@gmail.com wrote: http://www.scielo.br/scielo.php?pid=S0103-9733200200024script=sci_arttext * Conclusions * We conclude that Bose-Einstein condensation of charged particles in a strong magnetic field is possible and leads to several new and interesting phenomena, as the occurrence of phase transition in presence of an external magnetic field, without a critical temperature. For low field intensity we have usual condensation, and for very strong fields, condensation is manifest again. The condensate in the strong magnetic field suggests the existence of superconductivity in extremely strong magnetic fields and the existence of a ferromagnetic-superconductive phase. This has interest in condensed matter physics. In astrophysics and cosmology we have also interesting consequences. It gives support to the conjectured existence of superfluid and superconductive phases in neutron stars [25]. It suggests also that at the electroweak phase transition, extremely strong magnetic fields may arise as a consequence of condensation and self-magnetization effects of the medium.
