| Titre : | Quantum Ising Phases and Transitions in Transverse Ising Models | | Type de document : | texte imprimé | | Auteurs : | Suzuki Sei, Auteur ; Inoue Jun-ichi, Auteur ; Chakrabarti k. Bikas, Auteur | | Mention d'édition : | 2e ED | | Editeur : | springer | | Année de publication : | 2013 | | Collection : | Lecture Notes in Physics num. 862 | | Importance : | 403 p | | Présentation : | ill. | | Format : | 23x15 cm | | ISBN/ISSN/EAN : | 978-3-642-33038-4 | | Note générale : | index | | Langues : | Anglais (eng) | | Mots-clés : | Quantum Ising Phases | | Résumé : | Quantum phase transitions, driven by quantum fluctuations, exhibit intriguing features offering the possibility of potentially new applications, e.g. in quantum information sciences. Major advances have been made in both theoretical and experimental investigations of the nature and behavior of quantum phases and transitions in cooperatively interacting many-body quantum systems.
For modeling purposes, most of the current innovative and successful research in this field has been obtained by either directly or indirectly using the insights provided by quantum (or transverse field) Ising models because of the separability of the cooperative interaction from the tunable transverse field or tunneling term in the relevant Hamiltonian. Also, a number of condensed matter systems can be modeled accurately in this approach, hence granting the possibility to compare advanced models with actual experimental results. |
Quantum Ising Phases and Transitions in Transverse Ising Models [texte imprimé] / Suzuki Sei, Auteur ; Inoue Jun-ichi, Auteur ; Chakrabarti k. Bikas, Auteur . - 2e ED . - [S.l.] : springer, 2013 . - 403 p : ill. ; 23x15 cm. - ( Lecture Notes in Physics; 862) . ISBN : 978-3-642-33038-4 index Langues : Anglais ( eng) | Mots-clés : | Quantum Ising Phases | | Résumé : | Quantum phase transitions, driven by quantum fluctuations, exhibit intriguing features offering the possibility of potentially new applications, e.g. in quantum information sciences. Major advances have been made in both theoretical and experimental investigations of the nature and behavior of quantum phases and transitions in cooperatively interacting many-body quantum systems.
For modeling purposes, most of the current innovative and successful research in this field has been obtained by either directly or indirectly using the insights provided by quantum (or transverse field) Ising models because of the separability of the cooperative interaction from the tunable transverse field or tunneling term in the relevant Hamiltonian. Also, a number of condensed matter systems can be modeled accurately in this approach, hence granting the possibility to compare advanced models with actual experimental results. |
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