Naslov
Memory-function conductivity formula and transport coefficients in underdoped cuprates

Autori
Kupčić, Ivan ; Jedovnicki, Ivan

Izvornik
European physical journal B : condensed matter physics (1434-6028) 90 (2017), 4; 63, 13

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
underdoped cuprate superconductors ; transport and optical properties ; quantum kinetic equations ; pseudogap phase

Sažetak
The two-band memory-function conductivity formula is derived from the quantum kinetic equation in the pseudogap state of underdoped cuprates. The conduction electrons are described by using the adiabatic version of the nested Fermi liquid model, and the effects of Mott correlations are taken into account phenomenologically. The linear dependence of the low-temperature effective number of conduction electrons on the doping level $\delta$ (for not too large $\delta$) is found to be in agreement with experimental observation. The momentum distribution function is found to play an important role in describing temperature effects. The closing of the antiferromagnetic pseudogap at temperatures of the order of room temperature, for example, is shown to be a direct consequence of a relatively large width of the quasiparticle peak in this distribution function. The coupling of conduction electron to external magnetic fields is included in the two-band transport equations in the usual semiclassical way. It is shown that the low-temperature Hall number is proportional to $\delta$ as well (again for not too large $\delta$) and that it exhibits singular behaviour when the Fermi surface changes from the hole-like shape into the electron-like shape.

Izvorni jezik
Engleski

Znanstvena područja
Fizika

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