Physical Properties of Magnesium Diboride Superconductor and its Role in Hybrid Energy Transfer

Davron Rahmonovich  Djurayev; Abdullo Amrullojon o’g’li  Ahadov

Authors

Davron Rahmonovich Djurayev Doctor of Physical and Mathematical Sciences, Bukhara State University, Professor of the Deparment of Physics
Abdullo Amrullojon o’g’li Ahadov Master student of Bukhara State University

Keywords:

magnesium diboride superconductor, hexagonal structure, superconducting transition temperature, oxygen free high conductivity, magnetic resonance imaging superconductor, hybrid energy

Abstract

This article discusses the properties of magnesium diboride material and superconductors made of magnesium diboride. Magnesium diboride superconductors can be used more efficiently than other superconductors. For this reason, in recent experiments in various fields of physics, it is necessary to use superconductors, while superconductors made of magnesium diobride are used. The article notes the use of magnesium diboride in a hybrid power transmission system that transmits hydrogen energy and electricity in parallel. At the end, important issues for discussion and necessary conclusions were given.

References

Emmanuele Cappelluti, Fabio Caruso, Dino Novko. Properties and challenges of hot- phonon physics in metals: and other compounds MgB_2. https://doi.org/10.48550/arXiv.2202.08597. 2022.

Elias Galan. Magnesium diboride superconducting device and circuits. A dissertation in Partial Fulfillment and of the Requirements for the Degree Doctor ofPhilosophy.https://scholarshare.temple.edu/bitstream/handle/20.500.12613/2891/TETDEDXGalan_temple_0225E_12376.pdf?sequence=1&isAllowed=y. 2015.

Cristina Buzea,Tsutomu Yamashita.Review of superconducting properties of MgB_2.Super conductor Science and Technology 14(11). 2001.

Qinyang Wang. Fabrication and superconducting properties of MgB2/Nb/Cu wires with chemical doping byusing Powder-In-Tube(PIT)method. Materials Science [cond-mat.mtrl-sci].Université Joseph-Fourier - Grenoble I, 2012.

D.R.Djurayev, Ahadov A.A. Hydrogen energy and superconductivity. //Republican scientific-practical conference on "Thinking and Interpretation".34-38. 2021.

D.R.Djurayev. Physics of superconductivity. // Dizayn-press Tashkent. 368. 2013.

V. S. Vysotsky, I. V. Antyukhov, V. P. Firsov, E. V. Blagov, V.V.Kostyuk, A. A. Nosova, S. S. Fetisov, S.Yu.Zanegin, V.S. Rachuk and B.I. Katorgin. Hybrid energy transfer line with liquid hydrogen and superconducting MgB_2 Cable-first experimental proof of concept. // IEEE Transactions on Applied Superconductivity. 23(3). 5400906. 2013.

V. S. Vysotsky, I. V. Antyukhov, V. P. Firsov, E. V. Blagov, V. V. Kostyuk, A. A. Nosov, S. S. Fetisov, S.Yu.Zanegin, V.S. Rachuk and B.I. Katorgin. Energy Transfer with Hydrogen and Superconductivity – The Review of the First Experimental Results.//PhyscisProcedia.65. 299-302. 2015.

P.Mikheenko. Superconductivity for hydrogen economy. Article in Journal of Physics Conference Series . DOI: 10.1088/1742-6596/286/1/012014. 2011.

Serquis A, Civale L, Hammon D L, Liao X Z, Coulter J Y, Zhu Y T, Jaime M, Peterson D E, Mueller F M, Nesterenko V F and Gu Y 2003 Appl. Phys. Lett. 82 2847.

Shields T C, Kawano K, Holdom D and Abell J S 2002 Supercond. Sci. Technol.15202.

https://www.researchgate.net.

https://en.wikipedia.org.