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Detection of charge density wave ground state in granular thin films of blue bronze K0.3MoO3 by femtosecond spectroscopy (CROSBI ID 175174)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Dominko, Damir ; Starešinić, Damir ; Salamon, Krešo ; Biljaković, Katica ; Tomeljak, Andrej ; Schäfer, Hanjo ; Demsar, Jure ; Socol, Gabriel ; Ristoscu, Carmen ; Mihailescu, Ion et al. Detection of charge density wave ground state in granular thin films of blue bronze K0.3MoO3 by femtosecond spectroscopy // Journal of applied physics, 110 (2011), 014907-1-014907-10. doi: 10.1063/1.3606418

Podaci o odgovornosti

Dominko, Damir ; Starešinić, Damir ; Salamon, Krešo ; Biljaković, Katica ; Tomeljak, Andrej ; Schäfer, Hanjo ; Demsar, Jure ; Socol, Gabriel ; Ristoscu, Carmen ; Mihailescu, Ion ; Siketić, Zdravko ; Bogdanović-Radović, Ivančica ; Pletikapić, Galja ; Svetličić, Vesna ; Đekić, Maja ; Šamić, Hasnija ; Marcus, Jacques

engleski

Detection of charge density wave ground state in granular thin films of blue bronze K0.3MoO3 by femtosecond spectroscopy

During the last years femtosecond time-resolved spectroscopy (fsTRS) has become an important new tool to investigate low energy excitations in strongly correlated systems. By studying energy relaxation pathways linking various degrees of freedom (e.g. electrons, spin or lattice), the interaction strengths between different subsystems can be deduced. Here we report on yet another application of fsTRS, where the technique is used to unambiguously determine the nature of the ground state in granular thin films of a prototype Charge Density Wave system blue bronze, K0.3MoO3. These, potassium blue bronze, films, obtained for the first time ever, have been prepared by pulsed laser deposition and investigated by various standard characterization methods. While the results of all used methods indicate that the thin films consist of nanometer grains of K0.3MoO3, it is only the non-destructive fsTRS that demonstrates the charge density wave nature of the ground state. Furthermore, the comparison of the fsTRS data obtained in thin films and in single crystals shows the reduction of the charge density wave transition temperature and of the photoinduced signal strength in granular thin films in respect to single crystals, which is attributed to the granularity and crystal growth morphology.

thin films; CDW; femtosecond spectroscopy

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Podaci o izdanju

110

2011.

014907-1-014907-10

objavljeno

0021-8979

10.1063/1.3606418

Povezanost rada

Fizika, Geologija

Poveznice
Indeksiranost