-
>
宇宙、量子和人類心靈
-
>
氣候文明史
-
>
南極100天
-
>
考研數學專題練1200題
-
>
希格斯:“上帝粒子”的發明與發現
-
>
神農架疊層石:10多億年前遠古海洋微生物建造的大堡礁
-
>
聲音簡史
強關聯電子系統中的量子場論 版權信息
- ISBN:9787510024047
- 條形碼:9787510024047 ; 978-7-5100-2404-7
- 裝幀:一般膠版紙
- 冊數:暫無
- 重量:暫無
- 所屬分類:>>
強關聯電子系統中的量子場論 本書特色
《強關聯電子系統中的量子場論》是由世界圖書出版公司出版的。
強關聯電子系統中的量子場論 內容簡介
research on electronic systems in condensed matter physics is at present developing very rapidly, where the main focus is changing from the "single-particle problem" to the "many-particle problem". that is, the main research interest changed from phenomena that can be understood in the single particle picture, as, for example, in band theory, to phenomena that arise owing to the interaction between many electrons.
強關聯電子系統中的量子場論 目錄
1.1 the s = 1/2 xxz spin chain
1.2 the jordan-wigner transformation and the quantum kink
1.3 the bethe ansatz and the exact solution
2. quantum field theory in 1+1 dimensions
2.1 bosonization
2.2 conformal field theory
2.3 the non-linear sigma model
3. strongly correlated electronic systems
3.1 models of strongly correlated electronic systems
3.2 spin-charge separation in one dimension
3.3 magnetic ordering in strongly correlated electronic systems
3.4 self-consistent renormalization theory
4. local electron correlation
4.1 the kondo effect
強關聯電子系統中的量子場論 節選
《強關聯電子系統中的量子場論》內容簡介:Research on electronic systems in condensed matter physics is at present developing very rapidly, where the main focus is changing from the "single-particle problem" to the "many-particle problem". That is, the main research interest changed from phenomena that can be understood in the single particle picture, as, for example, in band theory, to phenomena that arise owing to the interaction between many electrons.
強關聯電子系統中的量子場論 相關資料
插圖:On the other hand, there exist modes that are only contributed by a limited area of the Fermi surface, being local in k-space (individual excitation). These excitations build up a continuum spectrum, and are not very much influenced by the effect of the interaction. Putting it the other way round, also without interaction, individual excitations; that is, electron-hole pair creations emerges. In the higher-dimensional case, because both modes exist and the ratio of the individual excitations is larger, the excitation spectrum does not change drastically when no interaction is present. This corresponds to the Fermi liquid. However, in the one-dimensional case, the 'Fermi surface' consists only of the two points kF and ——kF, and therefore only the collective excitation modes exist. Therefore, the effect of the correlation is drastically visible. For this reason, the one-dimensional system is a non-Fermi liquid. We conclude that from the point of view where the Fermi surface is considered to be a dynamic variable, the Tomonaga Luttinger liquid and the Fermi liquid can be described using almost the same physical picture.However, in higher dimensions it is not easy to treat the Umklapp scattering by the bosonization scheme. In the Mott insulator, Umklapp scattering certainly occurs, and for this reason, in the vicinity of the Mott insulator state, perhaps a non-Fermi liquid arises. This problem is related to thehigh temperature superconductors, and is at present being intensively investigated.
- >
詩經-先民的歌唱
- >
企鵝口袋書系列·偉大的思想20:論自然選擇(英漢雙語)
- >
月亮與六便士
- >
史學評論
- >
姑媽的寶刀
- >
羅庸西南聯大授課錄
- >
唐代進士錄
- >
有舍有得是人生