Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2009 |
| Outros Autores: | , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional do INMETRO |
| Texto Completo: | http://hdl.handle.net/10926/1378 |
Resumo: | In this paper we present a simple method for the determination of the total magnetocaloric effect based on the acoustic detection of the adiabatic temperature rise caused by the application of an ac magnetic field of small amplitude. The continuous scanning of a superimposed dc magnetic field allows, by numerical integration, the determination of large temperature variations caused by magnetic field steps from zero to tens of kOe. Absolute values of temperature rise are easily acquired after the calibration of the microphone signal using an appropriate reference sample. Once the calibration is done, no further information about the sample’s thermal properties is necessary since the measured signal is directly proportional to the temperature variation. Measurements were made in Gd and Gd5.09Ge2.03Si1.88 samples in the temperature range from 240 to 320 K. The technique shows to be suitable for the investigation of materials undergoing both purely magnetic phase transitions, as in the case of Gd, and magnetic-crystallographic first-order ones, as observed for Gd5.09Ge2.03Si1.88. Besides the ability to determine the temperature variation due to a large magnetic field step through the continuous scanning of the magnetic field, the technique is also very suitable for measuring the magnetocaloric effect under very small magnetic field steps since it has sensitivity below millikelvin. Moreover, it is able to detect temperature variations in very small amount of sample, leading to its potential application in magnetocaloric thin films. |
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info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleAcoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.8820092012-01-23T14:56:45Z2012-01-23T14:56:45ZIn this paper we present a simple method for the determination of the total magnetocaloric effect based on the acoustic detection of the adiabatic temperature rise caused by the application of an ac magnetic field of small amplitude. The continuous scanning of a superimposed dc magnetic field allows, by numerical integration, the determination of large temperature variations caused by magnetic field steps from zero to tens of kOe. Absolute values of temperature rise are easily acquired after the calibration of the microphone signal using an appropriate reference sample. Once the calibration is done, no further information about the sample’s thermal properties is necessary since the measured signal is directly proportional to the temperature variation. Measurements were made in Gd and Gd5.09Ge2.03Si1.88 samples in the temperature range from 240 to 320 K. The technique shows to be suitable for the investigation of materials undergoing both purely magnetic phase transitions, as in the case of Gd, and magnetic-crystallographic first-order ones, as observed for Gd5.09Ge2.03Si1.88. Besides the ability to determine the temperature variation due to a large magnetic field step through the continuous scanning of the magnetic field, the technique is also very suitable for measuring the magnetocaloric effect under very small magnetic field steps since it has sensitivity below millikelvin. Moreover, it is able to detect temperature variations in very small amount of sample, leading to its potential application in magnetocaloric thin films.7 p. : il.Submitted by Josivania Barbosa (josi.inmetro@yahoo.com.br) on 2012-01-20T17:50:27Z No. of bitstreams: 1 Pires_2009.pdf: 419158 bytes, checksum: 33d234b56efa04346f9b5c93494ef6dd (MD5)Approved for entry into archive by Catarina Soares(cfsoares@inmetro.gov.br) on 2012-01-23T14:56:45Z (GMT) No. of bitstreams: 1 Pires_2009.pdf: 419158 bytes, checksum: 33d234b56efa04346f9b5c93494ef6dd (MD5)Made available in DSpace on 2012-01-23T14:56:45Z (GMT). No. of bitstreams: 1 Pires_2009.pdf: 419158 bytes, checksum: 33d234b56efa04346f9b5c93494ef6dd (MD5) Previous issue date: 2009enghttp://hdl.handle.net/10926/1378DMD_hdl_10926/1378GUIMARAES, A. O. et al. Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88. Physical Review B, v. 80, 2009.Guimarães, André OliveiraSoffner, Max ErikMansanares, Antonio ManoelCoelho, Adelino de AguiarCarvalho, Alexandre Magnus GomesPires, Manoel José MendesGama, SérgioSilva, Edson Corrêa dainfo:eu-repo/semantics/openAccessreponame:Repositório Institucional do INMETROinstname:Instituto Nacional de Metrologia, Qualidade e Tecnologia (INMETRO)instacron:INMETROGuimaraes_2009.pdfhttp://xrepo01s.inmetro.gov.br/bitstream/10926/1378/1/Guimaraes_2009.pdfapplication/pdf419158http://xrepo01s.inmetro.gov.br/bitstream/10926/1378/1/Guimaraes_2009.pdf33d234b56efa04346f9b5c93494ef6ddMD510926_1378_1Guimaraes_2009.pdf.txthttp://xrepo01s.inmetro.gov.br/bitstream/10926/1378/6/Guimaraes_2009.pdf.txttext/plain36579http://xrepo01s.inmetro.gov.br/bitstream/10926/1378/6/Guimaraes_2009.pdf.txtba2a20f331bce19ec0a78710859b7917MD510926_1378_62024-06-10T15:24:42Zoai:xrepo01s.inmetro.gov.br:10926/1378Repositório de Publicaçõeshttp://repositorios.inmetro.gov.br/oai/requestopendoar:2012-09-28T17:59Repositório Institucional do INMETRO - Instituto Nacional de Metrologia, Qualidade e Tecnologia (INMETRO)false |
| dc.title.none.fl_str_mv |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| title |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| spellingShingle |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 Guimarães, André Oliveira |
| title_short |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| title_full |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| title_fullStr |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| title_full_unstemmed |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| title_sort |
Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88 |
| author |
Guimarães, André Oliveira |
| author_facet |
Guimarães, André Oliveira Soffner, Max Erik Mansanares, Antonio Manoel Coelho, Adelino de Aguiar Carvalho, Alexandre Magnus Gomes Pires, Manoel José Mendes Gama, Sérgio Silva, Edson Corrêa da |
| author_role |
author |
| author2 |
Soffner, Max Erik Mansanares, Antonio Manoel Coelho, Adelino de Aguiar Carvalho, Alexandre Magnus Gomes Pires, Manoel José Mendes Gama, Sérgio Silva, Edson Corrêa da |
| author2_role |
author author author author author author author |
| dc.contributor.author.fl_str_mv |
Guimarães, André Oliveira Soffner, Max Erik Mansanares, Antonio Manoel Coelho, Adelino de Aguiar Carvalho, Alexandre Magnus Gomes Pires, Manoel José Mendes Gama, Sérgio Silva, Edson Corrêa da |
| description |
In this paper we present a simple method for the determination of the total magnetocaloric effect based on the acoustic detection of the adiabatic temperature rise caused by the application of an ac magnetic field of small amplitude. The continuous scanning of a superimposed dc magnetic field allows, by numerical integration, the determination of large temperature variations caused by magnetic field steps from zero to tens of kOe. Absolute values of temperature rise are easily acquired after the calibration of the microphone signal using an appropriate reference sample. Once the calibration is done, no further information about the sample’s thermal properties is necessary since the measured signal is directly proportional to the temperature variation. Measurements were made in Gd and Gd5.09Ge2.03Si1.88 samples in the temperature range from 240 to 320 K. The technique shows to be suitable for the investigation of materials undergoing both purely magnetic phase transitions, as in the case of Gd, and magnetic-crystallographic first-order ones, as observed for Gd5.09Ge2.03Si1.88. Besides the ability to determine the temperature variation due to a large magnetic field step through the continuous scanning of the magnetic field, the technique is also very suitable for measuring the magnetocaloric effect under very small magnetic field steps since it has sensitivity below millikelvin. Moreover, it is able to detect temperature variations in very small amount of sample, leading to its potential application in magnetocaloric thin films. |
| publishDate |
2009 |
| dc.date.issued.fl_str_mv |
2009 |
| dc.date.available.fl_str_mv |
2012-01-23T14:56:45Z |
| dc.date.accessioned.fl_str_mv |
2012-01-23T14:56:45Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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article |
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publishedVersion |
| dc.identifier.uri.fl_str_mv |
http://hdl.handle.net/10926/1378 DMD_hdl_10926/1378 |
| dc.identifier.citation.fl_str_mv |
GUIMARAES, A. O. et al. Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88. Physical Review B, v. 80, 2009. |
| url |
http://hdl.handle.net/10926/1378 |
| identifier_str_mv |
DMD_hdl_10926/1378 GUIMARAES, A. O. et al. Acoustic detection of the magnetocaloric effect: application to Gd and Gd5.09Ge2.03Si1.88. Physical Review B, v. 80, 2009. |
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