Dataciencia

Colección SciELO Chile

Spin Seebeck effect detection by harmonic analysis

Indexado

WoS	WOS:000542642700001
Scopus	SCOPUS_ID:85087546239

DOI

10.1063/5.0011413

Año

2020

Tipo

artículo de investigación

Citas Totales

Autores Afiliación Chile

Instituciones Chile

% Participación
Internacional

Autores
Afiliación Extranjera

Instituciones
Extranjeras

Abstract

12 / Pt bilayer. In our experimental setup, we use a harmonic magnetic field and a static thermal gradient in the longitudinal configuration to induce a square-wave SSE signal. By using a phase-sensitive detection technique (lock-in), we can reduce the impact of electrical noise, which improves sensitivity and, through harmonic analysis of the measured signal, decouples in real time the SSE signal from other thermoelectric effects.

Revista

Revista	ISSN
Applied Physics Letters	0003-6951

Métricas Externas

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Disciplinas de Investigación

WOS
Physics, Applied

Scopus
Sin Disciplinas

SciELO
Sin Disciplinas

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Publicaciones WoS (Ediciones: ISSHP, ISTP, AHCI, SSCI, SCI), Scopus, SciELO Chile.

Colaboración Institucional

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Autores - Afiliación

Ord.	Autor	Género	Institución - País
1	Romanque-Albornoz, Cristian	Hombre	Universidad Técnica Federico Santa María - Chile
2	GONZALEZ-FUENTES, CLAUDIO ALEJANDRO	Hombre	Universidad Técnica Federico Santa María - Chile
3	Orellana, Cristian	Hombre	Universidad Técnica Federico Santa María - Chile
4	Garcia-Argos, C.	Mujer	Universidad Técnica Federico Santa María - Chile

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Financiamiento

Fuente
FONDECYT
European Union
USM-DGIIP
Horizon 2020 Framework Programme
ANID PIA/APOYO
ANID FONDECYT/REGULAR

Muestra la fuente de financiamiento declarada en la publicación.

Agradecimientos

Agradecimiento
The authors acknowledge financial support from the European Union's Horizon 2020 research and innovation programme under Marie Sklodowska-Curie Grant Agreement No. 734801 (MAGNAMED Project). C.G. acknowledges the financial support received by ANID PIA/APOYO AFB180002 and ANID FONDECYT/REGULAR 1201102. C.G.-F. acknowledges the financial support of FONDECYT Postdoctoral 3170908. C.R.-A. acknowledges the financial support of USM-DGIIP.
The authors acknowledge financial support from the European Union’s Horizon 2020 research and innovation programme under Marie Sklodowska-Curie Grant Agreement No. 734801 (MAGNAMED Project). C.G. acknowledges the financial support received by ANID PIA/APOYO AFB180002 and ANID FONDECYT/REGULAR 1201102. C.G.-F. acknowledges the financial support of FONDECYT Postdoctoral 3170908. C.R.-A. acknowledges the financial support of USM-DGIIP.

Agradecimiento

The authors acknowledge financial support from the European Union's Horizon 2020 research and innovation programme under Marie Sklodowska-Curie Grant Agreement No. 734801 (MAGNAMED Project). C.G. acknowledges the financial support received by ANID PIA/APOYO AFB180002 and ANID FONDECYT/REGULAR 1201102. C.G.-F. acknowledges the financial support of FONDECYT Postdoctoral 3170908. C.R.-A. acknowledges the financial support of USM-DGIIP.

The authors acknowledge financial support from the European Union’s Horizon 2020 research and innovation programme under Marie Sklodowska-Curie Grant Agreement No. 734801 (MAGNAMED Project). C.G. acknowledges the financial support received by ANID PIA/APOYO AFB180002 and ANID FONDECYT/REGULAR 1201102. C.G.-F. acknowledges the financial support of FONDECYT Postdoctoral 3170908. C.R.-A. acknowledges the financial support of USM-DGIIP.