Anisotropic behaviour of transmission through thin superconducting NbN film in parallel magnetic field
Transmission of terahertz waves through a thin layer of the superconductor NbN deposited on an anisotropic R-cut sapphire substrate is studied as a function of temperature in a magnetic field oriented parallel with the sample. A significant difference is found between transmitted intensities of beam...
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| creator | Šindler, M Tesař, R Koláček, J Skrbek, L |
| description | Transmission of terahertz waves through a thin layer of the superconductor
NbN deposited on an anisotropic R-cut sapphire substrate is studied as a
function of temperature in a magnetic field oriented parallel with the sample.
A significant difference is found between transmitted intensities of beams
linearly polarized parallel with and perpendicular to the direction of applied
magnetic field. |
| doi_str_mv | 10.48550/arxiv.1510.01256 |
| format | Article |
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NbN deposited on an anisotropic R-cut sapphire substrate is studied as a
function of temperature in a magnetic field oriented parallel with the sample.
A significant difference is found between transmitted intensities of beams
linearly polarized parallel with and perpendicular to the direction of applied
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NbN deposited on an anisotropic R-cut sapphire substrate is studied as a
function of temperature in a magnetic field oriented parallel with the sample.
A significant difference is found between transmitted intensities of beams
linearly polarized parallel with and perpendicular to the direction of applied
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NbN deposited on an anisotropic R-cut sapphire substrate is studied as a
function of temperature in a magnetic field oriented parallel with the sample.
A significant difference is found between transmitted intensities of beams
linearly polarized parallel with and perpendicular to the direction of applied
magnetic field.</abstract><doi>10.48550/arxiv.1510.01256</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Physics - Superconductivity |
| title | Anisotropic behaviour of transmission through thin superconducting NbN film in parallel magnetic field |
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