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Observation of superconductivity in ...

Ichinokura, Satoru.

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Observation of superconductivity in epitaxially grown atomic layers = In Situ Electrical Transport Measurements /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Observation of superconductivity in epitaxially grown atomic layers/ by Satoru Ichinokura.
Reminder of title:	In Situ Electrical Transport Measurements /
Author:	Ichinokura, Satoru.
Published:	Singapore :Springer Singapore : : 2018.,
Description:	xix, 122 p. :ill., digital ;24 cm.
[NT 15003449]:	Introduction -- Fundamentals -- Experimental methods -- Thallium biatomic layer -- Thallium-lead monatomiclayer compound -- Intercalation Compounds of Bilayer Graphene -- Conclusion.
Contained By:	Springer eBooks
Subject:	Superconductivity. -
Online resource:	http://dx.doi.org/10.1007/978-981-10-6853-9
ISBN:	9789811068539

Observation of superconductivity in epitaxially grown atomic layers = In Situ Electrical Transport Measurements /
Ichinokura, Satoru.

Observation of superconductivity in epitaxially grown atomic layersIn Situ Electrical Transport Measurements /[electronic resource] :by Satoru Ichinokura. - Singapore :Springer Singapore :2018. - xix, 122 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Fundamentals -- Experimental methods -- Thallium biatomic layer -- Thallium-lead monatomiclayer compound -- Intercalation Compounds of Bilayer Graphene -- Conclusion.

This thesis presents first observations of superconductivity in one- or two-atomic-scale thin layer materials. The thesis begins with a historical overview of superconductivity and the electronic structure of two-dimensional materials, and mentions that these key ingredients lead to the possibility of the two-dimensional superconductor with high phase-transition temperature and critical magnetic field. Thereafter, the thesis moves its focus onto the implemented experiments, in which mainly two different materials thallium-deposited silicon surfaces and metal-intercalated bilayer graphenes, are used. The study of the first material is the first experimental demonstration of both a gigantic Rashba effect and superconductivity in the materials supposed to be superconductors without spatial inversion symmetry. The study of the latter material is relevant to superconductivity in a bilayer graphene, which was a big experimental challenge for a decade, and has been first achieved by the author. The description of the generic and innovative measurement technique, highly effective in probing electric resistivity of ultra-thin materials unstable in an ambient environment, makes this thesis a valuable source for researchers not only in surface physics but also in nano-materials science and other condensed-matter physics.

ISBN: 9789811068539

Standard No.: 10.1007/978-981-10-6853-9doiSubjects--Topical Terms:

605754
Superconductivity.

LC Class. No.: QC611.92

Dewey Class. No.: 537.623

Observation of superconductivity in epitaxially grown atomic layers = In Situ Electrical Transport Measurements /
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520 $a This thesis presents first observations of superconductivity in one- or two-atomic-scale thin layer materials. The thesis begins with a historical overview of superconductivity and the electronic structure of two-dimensional materials, and mentions that these key ingredients lead to the possibility of the two-dimensional superconductor with high phase-transition temperature and critical magnetic field. Thereafter, the thesis moves its focus onto the implemented experiments, in which mainly two different materials thallium-deposited silicon surfaces and metal-intercalated bilayer graphenes, are used. The study of the first material is the first experimental demonstration of both a gigantic Rashba effect and superconductivity in the materials supposed to be superconductors without spatial inversion symmetry. The study of the latter material is relevant to superconductivity in a bilayer graphene, which was a big experimental challenge for a decade, and has been first achieved by the author. The description of the generic and innovative measurement technique, highly effective in probing electric resistivity of ultra-thin materials unstable in an ambient environment, makes this thesis a valuable source for researchers not only in surface physics but also in nano-materials science and other condensed-matter physics.
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