Explaining Pomeranchuk Effect by Parity of Magnetic Moments of Leptons and Hadrons for Superconductivity in ³He and Graphene*  

作　　者：Reginald B. Little Reginald B. Little(Department of Natural Science, Stillman College, Tuscaloosa, USA)

机构地区：[1]Department of Natural Science, Stillman College, Tuscaloosa, USA

出　　处：《Journal of Modern Physics》2023年第5期583-603,共21页现代物理（英文）

摘　　要：The mystery of superconductivity has intrigued scientists for 110 years now. The author in 2014 specifically predicted the superconductivity in carbon, sulfur and hydrogen compounds and generally predicted carbonaceous, hydrogeneous and sulfurous compounds in 2005 with reference to scattering to asymmetric orbital motions and associated spin and orbital exchanges between nuclei and electrons. The emphasis was in 2005 upon stronger electron and nuclear interactions and electron-phonon effects. But here the author develops more the un-gerade parity of the p and f orbitals and their contributions to the superconductivity at lower pressures and higher temperatures. On the bases of such, the role of parity from the origin and inflation of the Universe is noted and dark and bright energies and matters in the mature Universe are reasoned. Moreover, the superconductors are all reasoned by positive and negative nuclear magnetic moments (NMMs) with availability of un-gerade parities of p and f subshells and their orbitals. In addition to superconductivity, such positive and negative NMMs by Little Effect is presented for explaining Pomeranchuk Effect and thereby further explaining superconductivity and superfluidity of ³He. On the bases of successes of Little Effect via positive and negative NMMs, in particular negative NMMs of ³He, the superconductivity in twisted graphene is explained and also its recently discovered Pomeranchuk Effect.The mystery of superconductivity has intrigued scientists for 110 years now. The author in 2014 specifically predicted the superconductivity in carbon, sulfur and hydrogen compounds and generally predicted carbonaceous, hydrogeneous and sulfurous compounds in 2005 with reference to scattering to asymmetric orbital motions and associated spin and orbital exchanges between nuclei and electrons. The emphasis was in 2005 upon stronger electron and nuclear interactions and electron-phonon effects. But here the author develops more the un-gerade parity of the p and f orbitals and their contributions to the superconductivity at lower pressures and higher temperatures. On the bases of such, the role of parity from the origin and inflation of the Universe is noted and dark and bright energies and matters in the mature Universe are reasoned. Moreover, the superconductors are all reasoned by positive and negative nuclear magnetic moments (NMMs) with availability of un-gerade parities of p and f subshells and their orbitals. In addition to superconductivity, such positive and negative NMMs by Little Effect is presented for explaining Pomeranchuk Effect and thereby further explaining superconductivity and superfluidity of ³He. On the bases of successes of Little Effect via positive and negative NMMs, in particular negative NMMs of ³He, the superconductivity in twisted graphene is explained and also its recently discovered Pomeranchuk Effect.

关 键 词：SUPERCONDUCTIVITY Pomeranchuk Effect Little Effect Liquid State Nuclear Magnetic Moments 

分 类 号：O57[理学—粒子物理与原子核物理]