G. Blumberg scite author profile

Determining the nature of the electronic phases that compete with superconductivity in high-transition-temperature (high-T(c)) superconductors is one of the deepest problems in condensed matter physics. One candidate is the 'stripe' phase, in which the charge carriers (holes) condense into rivers of charge that separate regions of antiferromagnetism. A related but lesser known system is the 'spin ladder', which consists of two coupled chains of magnetic ions forming an array of rungs. A doped ladder can be thought of as a high-T(c) material with lower dimensionality, and has been predicted to exhibit both superconductivity and an insulating 'hole crystal' phase in which the carriers are localized through many-body interactions. The competition between the two resembles that believed to operate between stripes and superconductivity in high-T(c) materials. Here we report the existence of a hole crystal in the doped spin ladder of Sr14Cu24O41 using a resonant X-ray scattering technique. This phase exists without a detectable distortion in the structural lattice, indicating that it arises from many-body electronic effects. Our measurements confirm theoretical predictions, and support the picture that proximity to charge ordered states is a general property of superconductivity in copper oxides.

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Nonmonotonicdx2−y2Superconducting Order Parameter in
Blumberg¹,
Koitzsch²,
Gozar³
et al. 2002
Phys. Rev. Lett.
164
21
167
0
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Low energy polarized electronic Raman scattering of the electron-doped superconductor Nd2-x Ce x CuO4 ( x = 0.15, T(c) = 22 K) has revealed a nonmonotonic d(x(2)-y(2)) superconducting order parameter. It has a maximum gap of 4.4k(B)T(c) at Fermi surface intersections with an antiferromagnetic Brillouin zone (the "hot spots") and a smaller gap of 3.3k(B)T(c) at fermionic Brillouin zone boundaries. The gap enhancement in the vicinity of the hot spots emphasizes the role of antiferromagnetic fluctuations and the similarity in the origin of superconductivity for electron- and hole-doped cuprates.

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Critical quadrupole fluctuations and collective modes in iron pnictide superconductors

et al. 2016

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The multiband nature of iron pnictides gives rise to a rich temperature-doping phase diagram of competing orders and a plethora of collective phenomena. At low dopings, the tetragonal-to-orthorhombic structural transition is closely followed by a spin density wave transition both being in close proximity to the superconducting phase. A key question is the nature of high-Tc superconductivity and its relation to orbital ordering and magnetism. Here we study the NaFe1−xCoxAs superconductor using polarization-resolved Raman spectroscopy. The Raman susceptibility displays critical enhancement of non-symmetric charge fluctuations across the entire phase diagram which are precursors to a d-wave Pomeranchuk instability at temperature θ(x). The charge fluctuations are interpreted in terms of quadrupole inter-orbital excitations in which the electron and hole Fermi surfaces breathe in-phase. Below Tc, the critical fluctuations acquire coherence and undergo a metamorphosis into a coherent ingap mode of extraordinary strength.

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G. Blumberg

Giant dielectric constant response in a copper-titanate

Crystallization of charge holes in the spin ladder of Sr14Cu24O41

Nonmonotonicdx2−y2Superconducting Order Parameter in
Blumberg¹,
Koitzsch²,
Gozar³
et al. 2002
Phys. Rev. Lett.
164
21
167
0
View full text Add to dashboard Cite

Critical quadrupole fluctuations and collective modes in iron pnictide superconductors

Contact Info

Product

Resources

About

G. Blumberg

Giant dielectric constant response in a copper-titanate

Crystallization of charge holes in the spin ladder of Sr14Cu24O41

Nonmonotonicdx2−y2Superconducting Order Parameter inBlumberg1, Koitzsch2, Gozar3 et al. 2002Phys. Rev. Lett.164211670View full textAdd to dashboardCite

Critical quadrupole fluctuations and collective modes in iron pnictide superconductors

Contact Info

Product

Resources

About

Nonmonotonicdx2−y2Superconducting Order Parameter in
Blumberg¹,
Koitzsch²,
Gozar³
et al. 2002
Phys. Rev. Lett.
164
21
167
0
View full text Add to dashboard Cite