Numerical subgap spectroscopy of double quantum dots coupled to superconductors

Double quantum dot nanostructures embedded between two superconducting leads or in a superconducting ring have complex excitation spectra inside the gap which reveal the competition between different many-body phenomena. We study the corresponding two-impurity Anderson model using the nonperturbativ...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2015-04, Vol.91 (16), Article 165116
1. Verfasser:	Zitko, Rok
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Sprache:	eng
Schlagworte:	Condensed matter Excitation spectra Ground state Mathematical models Nanostructure Qunatum dots Spectra Superconductivity Superconductors
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description	Double quantum dot nanostructures embedded between two superconducting leads or in a superconducting ring have complex excitation spectra inside the gap which reveal the competition between different many-body phenomena. We study the corresponding two-impurity Anderson model using the nonperturbative numerical renormalization group (NRG) technique and identify the characteristic features in the spectral function in various parameter regimes. At half-filling, the system always has a singlet ground state. For large hybridization, we observe an inversion of excited interdot triplet and singlet states due to the level repulsion between two subgap singlet states. The Shiba doublet states split in two cases: (a) at nonzero superconducting phase difference and (b) away from half-filling. The most complex structure of subgap states is found when one or both dots are in the valence fluctuation regime. Doublet splitting can lead to a parity-changing quantum phase transition to a doublet ground state in some circumstances. In such cases, we observe very different spectral weights for the transitions to singlet or triplet excited Shiba states: the triplet state is best visible on the valence-fluctuating dot, while the singlets are more pronounced on the half-filled dot.
doi_str_mv	10.1103/PhysRevB.91.165116
format	Article
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We study the corresponding two-impurity Anderson model using the nonperturbative numerical renormalization group (NRG) technique and identify the characteristic features in the spectral function in various parameter regimes. At half-filling, the system always has a singlet ground state. For large hybridization, we observe an inversion of excited interdot triplet and singlet states due to the level repulsion between two subgap singlet states. The Shiba doublet states split in two cases: (a) at nonzero superconducting phase difference and (b) away from half-filling. The most complex structure of subgap states is found when one or both dots are in the valence fluctuation regime. Doublet splitting can lead to a parity-changing quantum phase transition to a doublet ground state in some circumstances. 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B, Condensed matter and materials physics</title><description>Double quantum dot nanostructures embedded between two superconducting leads or in a superconducting ring have complex excitation spectra inside the gap which reveal the competition between different many-body phenomena. We study the corresponding two-impurity Anderson model using the nonperturbative numerical renormalization group (NRG) technique and identify the characteristic features in the spectral function in various parameter regimes. At half-filling, the system always has a singlet ground state. For large hybridization, we observe an inversion of excited interdot triplet and singlet states due to the level repulsion between two subgap singlet states. The Shiba doublet states split in two cases: (a) at nonzero superconducting phase difference and (b) away from half-filling. The most complex structure of subgap states is found when one or both dots are in the valence fluctuation regime. Doublet splitting can lead to a parity-changing quantum phase transition to a doublet ground state in some circumstances. In such cases, we observe very different spectral weights for the transitions to singlet or triplet excited Shiba states: the triplet state is best visible on the valence-fluctuating dot, while the singlets are more pronounced on the half-filled dot.</description><subject>Condensed matter</subject><subject>Excitation spectra</subject><subject>Ground state</subject><subject>Mathematical models</subject><subject>Nanostructure</subject><subject>Qunatum dots</subject><subject>Spectra</subject><subject>Superconductivity</subject><subject>Superconductors</subject><issn>1098-0121</issn><issn>1550-235X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNo1kMFOAyEQhonRxFp9AU979LKVAXaBozZaTRprTA_eCGVBa3YLhcWkby-mepp_ku-fZD6ErgHPADC9ff08pDf7fT-TMIO2AWhP0ASaBteENu-nJWMpagwEztFFSl8YA5OMTNDqJQ82bo3uq5Q3HzpUKVgzRp-MD4fKu6rzedPbap_1bsxDWcdUGZ9Db7tq9KUVbDR-12Uz-pgu0ZnTfbJXf3OK1o8P6_lTvVwtnud3y9pQwsa63YBz0jkwhLUNJ51zgjopStYOtCAt6VpaICKAaiOMtdwy7rToHGeSTtHN8WyIfp9tGtWwTcb2vd5Zn5MCjiVnnGJaUHJETXkqRetUiNtBx4MCrH7lqX95SoI6yqM_LHZmkg</recordid><startdate>20150409</startdate><enddate>20150409</enddate><creator>Zitko, Rok</creator><scope>AAYXX</scope><scope>CITATION</scope><scope>7U5</scope><scope>8FD</scope><scope>H8D</scope><scope>L7M</scope></search><sort><creationdate>20150409</creationdate><title>Numerical subgap spectroscopy of double quantum dots coupled to superconductors</title><author>Zitko, Rok</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c324t-6b1ff9ff1c246572dff83f98657af1a8262d63b1f2813ac8cee7e47fa8df7493</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><topic>Condensed matter</topic><topic>Excitation spectra</topic><topic>Ground state</topic><topic>Mathematical models</topic><topic>Nanostructure</topic><topic>Qunatum dots</topic><topic>Spectra</topic><topic>Superconductivity</topic><topic>Superconductors</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zitko, Rok</creatorcontrib><collection>CrossRef</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Physical review. 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We study the corresponding two-impurity Anderson model using the nonperturbative numerical renormalization group (NRG) technique and identify the characteristic features in the spectral function in various parameter regimes. At half-filling, the system always has a singlet ground state. For large hybridization, we observe an inversion of excited interdot triplet and singlet states due to the level repulsion between two subgap singlet states. The Shiba doublet states split in two cases: (a) at nonzero superconducting phase difference and (b) away from half-filling. The most complex structure of subgap states is found when one or both dots are in the valence fluctuation regime. Doublet splitting can lead to a parity-changing quantum phase transition to a doublet ground state in some circumstances. In such cases, we observe very different spectral weights for the transitions to singlet or triplet excited Shiba states: the triplet state is best visible on the valence-fluctuating dot, while the singlets are more pronounced on the half-filled dot.</abstract><doi>10.1103/PhysRevB.91.165116</doi><oa>free_for_read</oa></addata></record>
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subjects	Condensed matter Excitation spectra Ground state Mathematical models Nanostructure Qunatum dots Spectra Superconductivity Superconductors
title	Numerical subgap spectroscopy of double quantum dots coupled to superconductors
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