TY - JOUR
T1 - Defect-induced electronic smectic state at the surface of nematic materials
AU - Lahiri, Aritra
AU - Klein, Avraham
AU - Fernandes, Rafael M.
N1 - Publisher Copyright:
© 2022 American Physical Society.
PY - 2022/10/1
Y1 - 2022/10/1
N2 - Due to the intertwining between electronic nematic and elastic degrees of freedom, lattice defects and structural inhomogeneities commonly found in crystals can have a significant impact on the electronic properties of nematic materials. Here, we show that defects commonly present at the surface of crystals generally shift the wave vector of the nematic instability to a nonzero value, resulting in an incommensurate electronic smectic phase. Such a smectic state onsets above the bulk nematic transition temperature and is localized near the surface of the sample. We argue that this effect may explain not only recent observations of a modulated nematic phase in iron-based superconductors, but also several previous puzzling experiments that reported signatures consistent with nematic order before the onset of a bulk structural distortion.
AB - Due to the intertwining between electronic nematic and elastic degrees of freedom, lattice defects and structural inhomogeneities commonly found in crystals can have a significant impact on the electronic properties of nematic materials. Here, we show that defects commonly present at the surface of crystals generally shift the wave vector of the nematic instability to a nonzero value, resulting in an incommensurate electronic smectic phase. Such a smectic state onsets above the bulk nematic transition temperature and is localized near the surface of the sample. We argue that this effect may explain not only recent observations of a modulated nematic phase in iron-based superconductors, but also several previous puzzling experiments that reported signatures consistent with nematic order before the onset of a bulk structural distortion.
UR - http://www.scopus.com/inward/record.url?scp=85140138712&partnerID=8YFLogxK
U2 - 10.1103/PhysRevB.106.L140503
DO - 10.1103/PhysRevB.106.L140503
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AN - SCOPUS:85140138712
SN - 2469-9950
VL - 106
JO - Physical Review B
JF - Physical Review B
IS - 14
M1 - L140503
ER -