Droplet-like Fermi surfaces in the anti-ferromagnetic phase of EuFe2As2, an Fe-pnictide superconductor parent compound

S. de Jong; E. van Heumen; S. Thirupathaiah; R. Huisman; F. Massee; J. B. Goedkoop; R. Ovsyannikov; J. Fink; H. A. Dürr; A. Gloskovskii; H. S. Jeevan; P. Gegenwart; A. Erb; L. Patthey; M. Shi; R. Follath; A. Varykhalov; M. S. Golden

doi:10.1209/0295-5075/89/27007

Droplet-like Fermi surfaces in the anti-ferromagnetic phase of EuFe₂As₂, an Fe-pnictide superconductor parent compound

S. de Jong¹, E. van Heumen¹, S. Thirupathaiah², R. Huisman¹, F. Massee¹, J. B. Goedkoop¹, R. Ovsyannikov², J. Fink^2,3, H. A. Dürr², A. Gloskovskii⁴, H. S. Jeevan⁵, P. Gegenwart⁵, A. Erb⁶, L. Patthey⁷, M. Shi⁷, R. Follath², A. Varykhalov² and M. S. Golden¹

Published 29 January 2010 • Europhysics Letters Association
Europhysics Letters, Volume 89, Number 2 Citation S. de Jong et al 2010 EPL 89 27007 DOI 10.1209/0295-5075/89/27007

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¹ Van der Waals-Zeeman Institute, University of Amsterdam - NL-1018XE Amsterdam, The Netherlands, EU

² Helmholtz Zentrum Berlin - Albert-Einstein-Strasse 15, 12489 Berlin, Germany, EU

³ Leibniz Institute of Solid and Materials Research Dresden - P.O. Box 270116, D-01171, Dresden, Germany, EU

⁴ Institut für Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universität 55099 Mainz, Germany, EU

⁵ I. Physikalisches Institut, Georg-August-Universität - Göttingen 37077, Germany, EU

⁶ Walther-Meissner-Institut - Walther-Meiß ner Strasse 8, 85748 Garching, Germany, EU

⁷ Paul Scherrer Institut, Swiss Light Source - 5232 Villigen, Switzerland

Dates

Received 17 December 2009
Accepted 11 January 2010
Published 29 January 2010

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Abstract

Using angle-resolved photoemission it is shown that the low-lying electronic states of the iron pnictide parent compound EuFe₂As₂ are strongly modified in the magnetically ordered, low-temperature, orthorhombic state compared to the tetragonal, paramagnetic case above the spin density wave transition temperature. Back-folded bands, reflected in the orthorhombic/anti-ferromagnetic Brillouin zone boundary hybridize strongly with the non-folded states, leading to the opening of energy gaps. As a direct consequence, the large Fermi surfaces of the tetragonal phase fragment, the low-temperature Fermi surface being comprised of small droplets, built up of electron- and hole-like sections. These high-resolution ARPES data are therefore in keeping with quantum oscillation and optical data from other undoped pnictide parent compounds.

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