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Phase Transitions
A Multinational Journal
Volume 88, 2015 - Issue 10: E-MRS Fall Meeting, Technical University of Warsaw, September 2014, Symposium ‘Functional perovskite systems’
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Original Articles

The negative thermo-optic effect in KTaO3: an ellipsometry study

Vladimir TrepakovInstitute of Physics ASCR, Prague, Czech Republic;Ioffe Physical-Technical Institute of the RAS, St Petersburg, RussiaCorrespondence[email protected]
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,
Alexandr DejnekaInstitute of Physics ASCR, Prague, Czech RepublicView further author information
,
Lubomir JastrabikInstitute of Physics ASCR, Prague, Czech RepublicView further author information
,
Anna LynnykInstitute of Physics ASCR, Prague, Czech RepublicView further author information
,
Dagmar ChvostovaInstitute of Physics ASCR, Prague, Czech RepublicView further author information
,
Pavel SyrnikovIoffe Physical-Technical Institute of the RAS, St Petersburg, RussiaView further author information
&
Pavel MarkovinIoffe Physical-Technical Institute of the RAS, St Petersburg, RussiaView further author information
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Pages 991-1000 | Received 31 Oct 2014, Accepted 05 Dec 2014, Published online: 30 Jan 2015
 
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Abstract

We used optical ellipsometry to study and elucidate the nature of the negative thermo-optic effect in KTaO3 single crystals, which consists of an increasing refraction index magnitude in the visible region upon cooling (dn/dT < 0). The optical constant functions were determined within the 1–6 eV region. The energies of the band edge indirect and direct optical transitions and their temperature evolutions in the region of 80–300 K were carefully investigated. The absorption edge in the region of the lowest indirect R → Γ optical transitions, 3.7–4.2 eV, was observed to shift to higher energies upon cooling. Simultaneously, an increase and ‘red shift’ of the optical absorption in the region of the direct X5'upper → X3 transitions (4.3–4.8 eV) were observed, which should be responsible for the nature of the observed negative thermo-optics in KTaO3.

Acknowledgements

The authors thank M. Tyunina for fruitful discussions.

Additional information

Funding

The work was supported in part by the large infrastructure SAFMAT Project [CZ.2.13/3.1.00/22132], [P108/12/1941] of GACR and PP RAS ‘Quantum mesoscopic and disordered systems’.

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