Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Tipo de documento: | Tese |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFSCAR |
| Texto Completo: | https://repositorio.ufscar.br/handle/ufscar/4961 |
Resumo: | Avalanches are sudden dramatic phenomena that occur in nature. The technique of magneto-optical imaging (MOI) has allowed us to observe abrupt flux entrances in superconductors, the so-called ux avalanches, due to thermomagnetic instabilities in the vortex matter. Their morphology is fascinating, especially in superconducting thin films, where they develop in dendritic patterns. From a practical point of view, the flux avalanches undermine applications of superconducting thin films. In the last years, however, several steps have been reached to fully understand the fundamental physics of the phenomenon and also on how to suppress their occurrence. The present thesis deals with the study of flux avalanches in structured superconducting thin films. We have studied crystalline Nb and amorphous Mo79Ge21 thin films decorated with arrays of antidots (ADs or holes) produced by electron beam lithography. The magnetic response of these specimens has been investigated by means of MOI, dc magnetization and ac susceptibility. Firstly, we have established a link among those three techniques in the regime dominated by flux avalanches. We have observed that the reentrant behavior in the ac susceptibility at low temperatures occurs as a consequence of flux avalanches. Essentially, there is reuse of the channels created by the first ac cycle in a regime where the signal is weakly dependent on the temperature. Our results show that measurements of ac susceptibility versus ac field amplitude can be used to detect flux avalanches, since the signature of the flux avalanches appears as noisy curves of both ac susceptibility components. As a consequence, the critical current density as a function of temperature [Jc.T ] obtained by using the Bean model whose validity is assured by Cole-Cole plots is smooth for higher temperatures and, below a certain temperature onset, a non-smooth and noisy behavior takes place due to the avalanches. The temperature dependence of Jc.T,H was determined for different values of the applied magnetic field. The stability/instability frontier was then identified as the limiting temperature below which the curve Jc.T,H becomes noisy, indicating the occurrence of avalanches. Associated with this limiting temperature, the threshold critical current density to trigger avalanches is essentially independent of the magnetic field. This frontier corresponds to the upper threshold limit for the occurrence of avalanches. The effect in a thin film of a graded distribution of ADs which follows nearly the flux profile described by the Bean model has been studied. Compared to the uniform distribution, there is an increase of the critical current density at low fields. Moreover, viii the flux avalanches, highly induced by the presence of an array of ADs, have their activity reduced in temperature and magnetic field. For the first time, flux avalanches have been visualized in amorphous Mo79Ge21 thin film, both in plain and decorated thin films. Finally, we have investigated the influence of the lattice symmetry and AD geometry on the flux avalanche morphology. We have observed avalanches with the habit of forming trees where the trunk is parallel to the main axis of the square lattice and the branches form angles of 45 degrees. In addition to that, we have found an anisotropic penetration in a Nb thin film decorated with a square lattice of triangular ADs. Besides that, a sample having one half of the ADs in the form of squares, and the other half being circles, has been observed to present avalanches of different morphologies on each of its halves. We have also studied an a-MoGe thin film with a centered rectangular 2D Bravais lattice with square ADs which shows penetrations with different angles depending on the edge. The overall features of the avalanches, and in particular the 45-degree direction of the branches, have been confirmed by numerical simulations using the thermomagnetic model. Superconductivity, structured thin films, flux avalanches, magneto-optical imaging. |
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Motta, MayconOrtiz, Wilson Aireshttp://lattes.cnpq.br/0241177338066307http://lattes.cnpq.br/834054062616481295f2ca27-4da2-441c-a195-e4f40c21f0262016-06-02T20:15:28Z2013-06-112016-06-02T20:15:28Z2013-04-12MOTTA, Maycon. Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies. 2013. 166 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2013.https://repositorio.ufscar.br/handle/ufscar/4961Avalanches are sudden dramatic phenomena that occur in nature. The technique of magneto-optical imaging (MOI) has allowed us to observe abrupt flux entrances in superconductors, the so-called ux avalanches, due to thermomagnetic instabilities in the vortex matter. Their morphology is fascinating, especially in superconducting thin films, where they develop in dendritic patterns. From a practical point of view, the flux avalanches undermine applications of superconducting thin films. In the last years, however, several steps have been reached to fully understand the fundamental physics of the phenomenon and also on how to suppress their occurrence. The present thesis deals with the study of flux avalanches in structured superconducting thin films. We have studied crystalline Nb and amorphous Mo79Ge21 thin films decorated with arrays of antidots (ADs or holes) produced by electron beam lithography. The magnetic response of these specimens has been investigated by means of MOI, dc magnetization and ac susceptibility. Firstly, we have established a link among those three techniques in the regime dominated by flux avalanches. We have observed that the reentrant behavior in the ac susceptibility at low temperatures occurs as a consequence of flux avalanches. Essentially, there is reuse of the channels created by the first ac cycle in a regime where the signal is weakly dependent on the temperature. Our results show that measurements of ac susceptibility versus ac field amplitude can be used to detect flux avalanches, since the signature of the flux avalanches appears as noisy curves of both ac susceptibility components. As a consequence, the critical current density as a function of temperature [Jc.T ] obtained by using the Bean model whose validity is assured by Cole-Cole plots is smooth for higher temperatures and, below a certain temperature onset, a non-smooth and noisy behavior takes place due to the avalanches. The temperature dependence of Jc.T,H was determined for different values of the applied magnetic field. The stability/instability frontier was then identified as the limiting temperature below which the curve Jc.T,H becomes noisy, indicating the occurrence of avalanches. Associated with this limiting temperature, the threshold critical current density to trigger avalanches is essentially independent of the magnetic field. This frontier corresponds to the upper threshold limit for the occurrence of avalanches. The effect in a thin film of a graded distribution of ADs which follows nearly the flux profile described by the Bean model has been studied. Compared to the uniform distribution, there is an increase of the critical current density at low fields. Moreover, viii the flux avalanches, highly induced by the presence of an array of ADs, have their activity reduced in temperature and magnetic field. For the first time, flux avalanches have been visualized in amorphous Mo79Ge21 thin film, both in plain and decorated thin films. Finally, we have investigated the influence of the lattice symmetry and AD geometry on the flux avalanche morphology. We have observed avalanches with the habit of forming trees where the trunk is parallel to the main axis of the square lattice and the branches form angles of 45 degrees. In addition to that, we have found an anisotropic penetration in a Nb thin film decorated with a square lattice of triangular ADs. Besides that, a sample having one half of the ADs in the form of squares, and the other half being circles, has been observed to present avalanches of different morphologies on each of its halves. We have also studied an a-MoGe thin film with a centered rectangular 2D Bravais lattice with square ADs which shows penetrations with different angles depending on the edge. The overall features of the avalanches, and in particular the 45-degree direction of the branches, have been confirmed by numerical simulations using the thermomagnetic model. Superconductivity, structured thin films, flux avalanches, magneto-optical imaging.Avalanches são eventos repentinos e dramáticos que ocorrem na natureza. A técnica de imageamento por magneto-ótica (MOI) tem permitido visualizar a penetração abrupta de fluxo em supercondutores, as chamadas avalanches de fluxo, que ocorrem devido a instabilidades termomagnéticas na matéria de vórtices. A morfologia dessas avalanches de fluxo em filmes finos supercondutores prístinos é singular e se desenvolve de maneira dendrítica, isto é, com ramificações. Do ponto de vista prático, as avalanches de fluxo são prejudiciais para aplicações dos filmes finos supercondutores. Nos últimos anos, no entanto, tem-se alcançado um bom entendimento da física básica do fenômeno, bem como maneiras para suprimir essas avalanches. Esta tese trata do estudo de avalanches de fluxo em filmes finos com uma estrutura de defeitos. Para tal, usamos filmes finos cristalinos de Nb e amorfos da liga Mo79Ge21 decorados com arranjos de antidots (ADs), ou buracos, produzidos por litografia por feixe de elétrons. A resposta magnética desses filmes foi investigada através de MOI, magnetização dc e suscetibilidade ac. Na primeira parte dos resultados, uma conexão entre essas técnicas foi estabelecida no regime de avalanches de fluxo. Foi observado que o comportamento reentrante da suscetibilidade ac em baixas temperaturas ocorre devido `as avalanches de fluxo. Essencialmente, há o reuso dos caminhos ou canais criados pelo primeiro ciclo ac em um regime em que o sinal é fracamente dependente da temperatura. Esses resultados também mostraram que a suscetibilidade ac pode ser usada para detectar avalanches de fluxo, seja pela construção da curva de corrente critica dependente da temperatura Jc.T ou monitorando o ruído nas curvas do tipo Cole-Cole. Assim, a fronteira de instabilidades termomagnéticas/estabilidade foi construída variando-se o campo dc aplicado, tendo sido obtido, um limiar constante de Jc.T para o disparo das avalanches. Essa observação está de acordo com o modelo termomagnético e refere-se ao limite superior da ocorrência das avalanches de fluxo. Também foi estudado o efeito da inserção de um arranjo de antidots distribuídos de maneira gradiente, que segue aproximadamente a distribuição de fluxo descrita pelo Modelo de Bean. Comparada com uma distribuição uniforme, um aumento da densidade de corrente crítica foi observada para a região de baixos campos. Além disso, as avalanches de fluxo, que são altamente induzidas pela presença de ADs, apresentaram uma redução em sua ocorrência, tanto em magnitude do campo magnético aplicado quanto em temperatura. Pela primeira vez, foram observadas avalanches de fluxo em filmes finos amorfos de Mo79Ge21 com e sem uma rede de ADs. x Por fim, a influência da simetria da rede e da geometria do antidot na morfologia das avalanches de fluxo foi investigada. Para filmes finos decorados com uma rede quadrada de ADs quadrados, as avalanches têm o tronco paralelo ao eixo principal da rede de ADs, com ramificações em ângulos de 45 graus como em uma árvore de Natal. Além disso, penetrações abruptas anisotrópicas foram vistas em um filme fino de Nb decorado com uma rede quadrada de ADs triangulares. Uma mudança na morfologia das avalanches também foi observada em um filme com metade dos ADs quadrados e a outra metade circular. Também foram observadas penetrações com diferentes ângulos em uma rede retangular centrada de ADs quadrados dependendo da borda. Por fim, as características gerais das avalanches, em particular a de ramificações em 45 graus, foram confirmadas por simulações numéricas usando o modelo termomagnético.Universidade Federal de Minas Geraisapplication/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Física - PPGFUFSCarBRSupercondutividadeFlux jumpsInstabilidades termomagnéticasFilmes finosAvalanches de fluxoImageamento por magneto-óticaSuperconductivityStructured thin filmFlux avalanchesmagneto-optical imagingCIENCIAS EXATAS E DA TERRA::FISICAFlux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studiesAvalanches de fluxo em filmes finos supercondutores estruturados: suscetibilidade ac, morfologia e outros estudosinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis-1-14bea89c5-2b99-435f-a6c6-97e225c24700info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINAL5177.pdfapplication/pdf16843754https://repositorio.ufscar.br/bitstream/ufscar/4961/1/5177.pdf0b2e8c0ee3f79df315d62b9151b7e100MD51TEXT5177.pdf.txt5177.pdf.txtExtracted texttext/plain0https://repositorio.ufscar.br/bitstream/ufscar/4961/2/5177.pdf.txtd41d8cd98f00b204e9800998ecf8427eMD52THUMBNAIL5177.pdf.jpg5177.pdf.jpgIM Thumbnailimage/jpeg7513https://repositorio.ufscar.br/bitstream/ufscar/4961/3/5177.pdf.jpg8c35a760940cafae4e6d48fe59630e95MD53ufscar/49612023-09-18 18:31:35.621oai:repositorio.ufscar.br:ufscar/4961Repositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestopendoar:43222023-09-18T18:31:35Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false |
| dc.title.eng.fl_str_mv |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| dc.title.alternative.por.fl_str_mv |
Avalanches de fluxo em filmes finos supercondutores estruturados: suscetibilidade ac, morfologia e outros estudos |
| title |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| spellingShingle |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies Motta, Maycon Supercondutividade Flux jumps Instabilidades termomagnéticas Filmes finos Avalanches de fluxo Imageamento por magneto-ótica Superconductivity Structured thin film Flux avalanches magneto-optical imaging CIENCIAS EXATAS E DA TERRA::FISICA |
| title_short |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| title_full |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| title_fullStr |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| title_full_unstemmed |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| title_sort |
Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies |
| author |
Motta, Maycon |
| author_facet |
Motta, Maycon |
| author_role |
author |
| dc.contributor.authorlattes.por.fl_str_mv |
http://lattes.cnpq.br/8340540626164812 |
| dc.contributor.author.fl_str_mv |
Motta, Maycon |
| dc.contributor.advisor1.fl_str_mv |
Ortiz, Wilson Aires |
| dc.contributor.advisor1Lattes.fl_str_mv |
http://lattes.cnpq.br/0241177338066307 |
| dc.contributor.authorID.fl_str_mv |
95f2ca27-4da2-441c-a195-e4f40c21f026 |
| contributor_str_mv |
Ortiz, Wilson Aires |
| dc.subject.por.fl_str_mv |
Supercondutividade Flux jumps Instabilidades termomagnéticas Filmes finos Avalanches de fluxo Imageamento por magneto-ótica |
| topic |
Supercondutividade Flux jumps Instabilidades termomagnéticas Filmes finos Avalanches de fluxo Imageamento por magneto-ótica Superconductivity Structured thin film Flux avalanches magneto-optical imaging CIENCIAS EXATAS E DA TERRA::FISICA |
| dc.subject.eng.fl_str_mv |
Superconductivity Structured thin film Flux avalanches magneto-optical imaging |
| dc.subject.cnpq.fl_str_mv |
CIENCIAS EXATAS E DA TERRA::FISICA |
| description |
Avalanches are sudden dramatic phenomena that occur in nature. The technique of magneto-optical imaging (MOI) has allowed us to observe abrupt flux entrances in superconductors, the so-called ux avalanches, due to thermomagnetic instabilities in the vortex matter. Their morphology is fascinating, especially in superconducting thin films, where they develop in dendritic patterns. From a practical point of view, the flux avalanches undermine applications of superconducting thin films. In the last years, however, several steps have been reached to fully understand the fundamental physics of the phenomenon and also on how to suppress their occurrence. The present thesis deals with the study of flux avalanches in structured superconducting thin films. We have studied crystalline Nb and amorphous Mo79Ge21 thin films decorated with arrays of antidots (ADs or holes) produced by electron beam lithography. The magnetic response of these specimens has been investigated by means of MOI, dc magnetization and ac susceptibility. Firstly, we have established a link among those three techniques in the regime dominated by flux avalanches. We have observed that the reentrant behavior in the ac susceptibility at low temperatures occurs as a consequence of flux avalanches. Essentially, there is reuse of the channels created by the first ac cycle in a regime where the signal is weakly dependent on the temperature. Our results show that measurements of ac susceptibility versus ac field amplitude can be used to detect flux avalanches, since the signature of the flux avalanches appears as noisy curves of both ac susceptibility components. As a consequence, the critical current density as a function of temperature [Jc.T ] obtained by using the Bean model whose validity is assured by Cole-Cole plots is smooth for higher temperatures and, below a certain temperature onset, a non-smooth and noisy behavior takes place due to the avalanches. The temperature dependence of Jc.T,H was determined for different values of the applied magnetic field. The stability/instability frontier was then identified as the limiting temperature below which the curve Jc.T,H becomes noisy, indicating the occurrence of avalanches. Associated with this limiting temperature, the threshold critical current density to trigger avalanches is essentially independent of the magnetic field. This frontier corresponds to the upper threshold limit for the occurrence of avalanches. The effect in a thin film of a graded distribution of ADs which follows nearly the flux profile described by the Bean model has been studied. Compared to the uniform distribution, there is an increase of the critical current density at low fields. Moreover, viii the flux avalanches, highly induced by the presence of an array of ADs, have their activity reduced in temperature and magnetic field. For the first time, flux avalanches have been visualized in amorphous Mo79Ge21 thin film, both in plain and decorated thin films. Finally, we have investigated the influence of the lattice symmetry and AD geometry on the flux avalanche morphology. We have observed avalanches with the habit of forming trees where the trunk is parallel to the main axis of the square lattice and the branches form angles of 45 degrees. In addition to that, we have found an anisotropic penetration in a Nb thin film decorated with a square lattice of triangular ADs. Besides that, a sample having one half of the ADs in the form of squares, and the other half being circles, has been observed to present avalanches of different morphologies on each of its halves. We have also studied an a-MoGe thin film with a centered rectangular 2D Bravais lattice with square ADs which shows penetrations with different angles depending on the edge. The overall features of the avalanches, and in particular the 45-degree direction of the branches, have been confirmed by numerical simulations using the thermomagnetic model. Superconductivity, structured thin films, flux avalanches, magneto-optical imaging. |
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2013 |
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2013-06-11 2016-06-02T20:15:28Z |
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2013-04-12 |
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2016-06-02T20:15:28Z |
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MOTTA, Maycon. Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies. 2013. 166 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2013. |
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https://repositorio.ufscar.br/handle/ufscar/4961 |
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MOTTA, Maycon. Flux avalanches in patterned superconducting thin films: ac susceptibility, morphology and related studies. 2013. 166 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2013. |
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