SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3036931421> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3036931421 abstract "We theoretically study charge Kondo effects in a quadruple quantum dot. This system has been realized in a carbon nanotube [Nature (London) 535, 395 (2016)] by A. Hamo et al., while it can be also formed in a two-dimensional electron gas (2DEG). The system is in a particular situation where a quadruple dot has twofold degenerate ground states of $({n}_{text{A}}=1,{n}_{text{B}}=1,{n}_{text{C}}=1,{n}_{text{D}}=0)$ and (0,0,0,1) charge configurations, where ${n}_{ensuremath{lambda}}$ is the electron occupation number of the individual dot $ensuremath{lambda}=text{A,B,C,D}$ of the quadruple dot. The two charge states behave as the pseudospin-1/2 states of a Kondo impurity. In the spinless regime, where the real spin of electrons is frozen, for example, by an external magnetic field, the quadruple dot can exhibit a single-channel charge Kondo effect in which coherent charge fluctuations massively occur between the two charge states with the help of electron tunneling between the quadruple dot and its electron reservoirs. The origin of the charge Kondo effect is similar to that of a negative-$U$ Anderson impurity. In the spinful regime, on the other hand, the real spin and charge degrees of freedom couple each other due to interdot electron tunneling between the dots A and B so that the spin singlet is formed in the charge state (1,1,1,0). In this regime, the low-energy Hamiltonian of the quadruple dot system can be mapped onto a two-channel Kondo Hamiltonian having channel anisotropy. In realistic situations of carbon nanotubes or GaAs 2DEGs, the channel anisotropy is so large that the quadruple dot shows a single-channel charge Kondo effect also in the spinful regime at experimentally available temperatures. We compute the temperature dependence of electron transport through the quadruple dot, which is useful for identifying the charge Kondo effects." @default.
W3036931421 created "2020-06-25" @default.
W3036931421 creator A5045508530 @default.
W3036931421 creator A5064642492 @default.
W3036931421 creator A5073036570 @default.
W3036931421 creator A5087432541 @default.
W3036931421 date "2020-06-19" @default.
W3036931421 modified "2023-09-23" @default.
W3036931421 title "Charge Kondo effects in a quadruple quantum dot in spinless and spinful regimes" @default.
W3036931421 cites W1584502010 @default.
W3036931421 cites W1593847378 @default.
W3036931421 cites W1606869012 @default.
W3036931421 cites W1811969339 @default.
W3036931421 cites W1857232958 @default.
W3036931421 cites W1867281886 @default.
W3036931421 cites W1918265548 @default.
W3036931421 cites W1958043479 @default.
W3036931421 cites W1965953639 @default.
W3036931421 cites W1966262418 @default.
W3036931421 cites W1971316108 @default.
W3036931421 cites W1971337438 @default.
W3036931421 cites W1972299476 @default.
W3036931421 cites W1978621658 @default.
W3036931421 cites W1982516738 @default.
W3036931421 cites W1985188728 @default.
W3036931421 cites W1987214934 @default.
W3036931421 cites W1995098397 @default.
W3036931421 cites W1995407390 @default.
W3036931421 cites W1999025285 @default.
W3036931421 cites W2000566773 @default.
W3036931421 cites W2012802649 @default.
W3036931421 cites W2021603374 @default.
W3036931421 cites W2030508620 @default.
W3036931421 cites W2030951236 @default.
W3036931421 cites W2032136728 @default.
W3036931421 cites W2044938393 @default.
W3036931421 cites W2049807113 @default.
W3036931421 cites W2049891421 @default.
W3036931421 cites W2051317126 @default.
W3036931421 cites W2053308085 @default.
W3036931421 cites W2057675705 @default.
W3036931421 cites W2059020631 @default.
W3036931421 cites W2060164185 @default.
W3036931421 cites W2062140509 @default.
W3036931421 cites W2069384223 @default.
W3036931421 cites W2070957465 @default.
W3036931421 cites W2072859362 @default.
W3036931421 cites W2072947251 @default.
W3036931421 cites W2073704528 @default.
W3036931421 cites W2075299664 @default.
W3036931421 cites W2076277430 @default.
W3036931421 cites W2078719203 @default.
W3036931421 cites W2087249496 @default.
W3036931421 cites W2089087623 @default.
W3036931421 cites W2093469921 @default.
W3036931421 cites W2112742772 @default.
W3036931421 cites W2114309328 @default.
W3036931421 cites W2118264689 @default.
W3036931421 cites W2127747797 @default.
W3036931421 cites W2148016544 @default.
W3036931421 cites W2148792114 @default.
W3036931421 cites W2169774479 @default.
W3036931421 cites W2320894063 @default.
W3036931421 cites W2331562917 @default.
W3036931421 cites W2485301686 @default.
W3036931421 cites W2743449647 @default.
W3036931421 cites W2746127006 @default.
W3036931421 cites W2747197788 @default.
W3036931421 cites W2796135997 @default.
W3036931421 cites W2797312367 @default.
W3036931421 cites W2809588285 @default.
W3036931421 cites W2810027419 @default.
W3036931421 cites W2952812963 @default.
W3036931421 cites W3011996111 @default.
W3036931421 cites W3124882299 @default.
W3036931421 cites W942596684 @default.
W3036931421 doi "https://doi.org/10.1103/physrevb.101.245307" @default.
W3036931421 hasPublicationYear "2020" @default.
W3036931421 type Work @default.
W3036931421 sameAs 3036931421 @default.
W3036931421 citedByCount "3" @default.
W3036931421 countsByYear W30369314212020 @default.
W3036931421 countsByYear W30369314212021 @default.
W3036931421 countsByYear W30369314212022 @default.
W3036931421 crossrefType "journal-article" @default.
W3036931421 hasAuthorship W3036931421A5045508530 @default.
W3036931421 hasAuthorship W3036931421A5064642492 @default.
W3036931421 hasAuthorship W3036931421A5073036570 @default.
W3036931421 hasAuthorship W3036931421A5087432541 @default.
W3036931421 hasConcept C109281498 @default.
W3036931421 hasConcept C120398109 @default.
W3036931421 hasConcept C121332964 @default.
W3036931421 hasConcept C124657808 @default.
W3036931421 hasConcept C126255220 @default.
W3036931421 hasConcept C130787639 @default.
W3036931421 hasConcept C147120987 @default.
W3036931421 hasConcept C170543821 @default.
W3036931421 hasConcept C181500209 @default.
W3036931421 hasConcept C184779094 @default.
W3036931421 hasConcept C188082385 @default.