Method for manufacturing high-temperature superconducting material based on phonon physical attribute and high-temperature superconducting material manufactured by method

Abstract

The invention emphasizes the time variation of an electron-lattice system, points out a mistake that quantization is used as a premise in a time variation place, proposes a new point that a phonon is defined as a neutretto for electromagnetic interaction between an electron and a lattice wave, and researches behaviors, relevant to 'measured' energy, of the electron-lattice system. By the invention, a nonstationary steady state of the electron subjected to electron pairing through virtual stimulated transition is confirmed, some sources (corresponding to high-temperature or low-temperature superconducting) of combined energy of electron pairs in a crystal are confirmed, and a state of electrons during pairing is explained. The behavior and the action of a threshold value phonon released by a simulated electron during electron pairing are confirmed, and redundancy of the threshold value phonon is affirmed when the electrons during pairing enter the nonstationary steady state. The evolution of the stability of the lattice wave on a transition probability function and the influence of the electrons on the stability are researched, and competition among a plurality of pairs relevant to the same electronic state and whether the competition has decision action on a superconducting phase are discussed. The invention provides a superconducting material with optimized superconducting critical temperature and a preparation method for the superconducting material.

Description

technical field [0001] The invention relates to a superconducting material based on phonon physical properties and a preparation method thereof. Background technique [0002] The theory / mechanism of superconductivity is still inconclusive and is an important technical and theoretical issue. However, the understanding of the mechanism of general conduction in the past is actually not comprehensive. Since there is no clear and reasonable theory and understanding of the superconducting mechanism, there is a great blindness in the research, design and development of superconducting materials and devices. [0003] Electron pairing is the key to some superconducting models, including the Cooper pair as the basis of BCS theory and the "interband electron pairing caused by the virtual quantum exchange of two boson fields" advocated by Kumar and R.K.Shankar et al. (see: Leon N .Cooper, "Bound Electron Pairs in a Degenerate FermiGas," Phys. Rev. 104, 1189 (1956) , and "Possibility ...

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Problems solved by technology

But such an introduction may be insufficiently based, because although each oscillator has its energy quantum, neither the wavenumber characteristics of phonons nor their identity as mesons in electromagnetic interaction can be understood from the "phonon is the quantum of its oscillator" The definition of

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