Comme un parfum de sens émanant d’une réalité embrouillée. Cela n’a peut-être rien à voir mais voilà des sujets qui sont peut-être reliés. Question d’affinités, d’infinités ou stupidités d’un esprit embrumé?
1 :Pentagen, hexagen et septagen ère?
On le trouve parfois sous le nom de pentagen dans le salmigondi de la désinformation établie alors que le pentagen désigne plutôt la molécule « 1,2,3,4,5-pentachloro-6-nitro-benzene ». Encore un effet de manche pour noyer le poisson dans la Manche? Ceci dit les isotopes sont de véritables taupes creusant des galeries souterraines dans nos consciences endormies.
A super-heavy isotope of hydrogen that has four neutrons and a proton in its nucleus has been detected for the first time. Physicists have been attempting to create hydrogen-5 - which is thought to exist inside stars - for over 40 years. An international collaboration identified the highly unstable isotope at the RIKEN detector in (A Korsheninnikov et al 2001 Phys. Rev. Lett. 87 092501). Meanwhile, physicists at Brookhaven National Laboratory in the have created a significant number of nuclei containing two 'strange' quarks. Such matter is thought to be abundant in neutron stars (J Ahn et al 2001 Phys. Rev. Lett. to appear).
http://physicsweb.org/articles/news/5/8/15
http://arxiv.org/PS_cache/nucl-ex/pdf/0702/0702021v1.pdf
2 : Le Sokolov’s effect, un phénomène bien étrange à la frontière de nos connaissances :
http://www.kiae.ru/rus/inf/new/new1.htm
“At last we had to conclude that we were dealing with some kind of previously unknown long-range interaction. Further experiments confirmed such an assumption.
the interaction of the excited hydrogen atom with a metal surface has a specific nature and only phenomenologically can be ascribed to the action of some effective electric field Eeff. This field is not a real physical field and consequently cannot be registered by any macroscopic device.
An explanation of the effect nature, compatible with the experimental data, was proposed by B. Kadomtsev [3]. It is based on assumption, that the atom, flying over the metal surface, interacts with the conductive electrons and holes in a thin surface layer . This results in an entangled state of the atom with a huge number of electrons and holes. Such an interaction gives rise to appearance a coherent admixture of the 2P-state to initial state 2S. The amount of this addition from each individual electron is infinitesimally small, but the net effect is observable because of great number of electrons. Thus, according to Kadomtsev, the effect observed is due to coherent superposition of EPR-interactions, and ought to be considered in terms of correlations (like Pauli-principle) rather than in terms of forces.
But, unfortunately, this theory had not been completed. Professor Kadomtsev untimely died two years ago.
Hence it follows that the observed effect is indeed a long range interaction and is a universal phenomenon.
3 :Hexa, quand tu nous tiens :
Anisotropic plasma crystal solitons
S. K. Zhdanov *
Moscow State Engineering and Physics Institute, Plasma Physics Department, Kashirskoe shosse 31, 115409 Moscow, Russia
D. Samsonov and G. E. Morfill
Max-Planck-Institut für Extraterrestrische Physik, D-85740 Garching, Germany
Received 10 April 2002; published 26 August 2002
An analytical two-dimensional model for weakly dispersive and weakly nonlinear longitudinal and transverse shear waves propagating in an ideal two-dimensional hexagonal Yukawa crystal is presented. The model takes into account the nonlinear terms up to the third order. Both compressional and shear soliton solutions are found in the long-wavelength approximation. It is shown that the compressional solitons are always supersonic and weakly anisotropic. The shear solitons, on the other hand, exhibit strong anisotropy and can be both subsonic and supersonic, depending on the direction of propagation. In the model, shear solitons cannot propagate along the main axes. The role of weak damping as well as formation of multiple solitons is analyzed. The results are discussed in connection with wave and Mach cone experiments in a monolayer hexagonal plasma crystal, and a diagnostic method is proposed to measure both the charge of the microparticles and the lattice parameter.
4 CSB: A chiral symmetry breaking (CSB) theory for atom H.
5 Waves and instabilities in weak inhomogeneous ideal Hall-magnetohydrodynamic plasmas
Zohar Kolberg, Edward Liverts, and Michael Mond
Department of Mechanical Engineering, Ben-Gurion University of the Negev, P.O. Box 653, Beer-Sheva 84105, Israel
(Received 12 October 2004; accepted 22 April 2005; published online 8 June 2005)
“The two-fluid magnetohydrodynamic equations in which the Hall term is taken into account in Faraday's law (Hall magnetohydrodynamic) for low-density magnetized inhomogeneous plasmas with finite pressure, and accounting for the inertial electron and ion dynamics responses are considered for slab geometry. Waves that propagate in the direction perpendicular to the density gradient and close to the direction of the background magnetic field are considered and linear analysis is employed in order to derive a local dispersion relation. It is shown that both the ion-cyclotron acoustic mode as well as the [B]magnetosound mode[/B] are susceptible to an instability that is driven by the spatial inhomogeneity of the plasma density. The condition under which unstable waves appear and the growth rate of the unstable modes are obtained for collisionless plasmas. The results of this theoretical investigation can be relevant to instabilities in low-beta fusion plasma devices as well as in various space applications. ©2005 American Institute of Physics “
http://w3.pppl.gov/~ikaganov/PPPL2005/SpecialIssue/TPS1179.pdf
6 A noter que la planète ça tourne est la sixième planète du système solaire. Ceci mérite t’il une hexa main?