7 research outputs found
Detection of a two-phonon mode in a cuprate superconductor via polarimetric RIXS
Recent improvements in the energy resolution of resonant inelastic x-ray
scattering experiments (RIXS) at the Cu-L edge have enabled the study of
lattice, spin, and charge excitations. Here, we report on the detection of a
low intensity signal at 140meV, twice the energy of the bond-stretching (BS)
phonon mode, in the cuprate superconductor
(Bi-2212).
Ultra-high resolution polarimetric RIXS measurements allow us to resolve the
outgoing polarization of the signal and identify this feature as a two-phonon
excitation. Further, we study the connection between the two-phonon mode and
the BS one-phonon mode by constructing a joint density of states toy model that
reproduces the key features of the data
Inelastic Light Scattering in Low Dimensional Quantum Spin Systems
U of I OnlyPost 1923. No authorization form
Pairing Symmetry of the High Temperature Superconductors
this paper is to bring to light phenomena which support a d
Engineering interfaces in cuprate superconductors
International Conference on Strongly Correlated Electron Systems (SCES 2007), Houston, TX, MAY 13-18, 2007International audienceUsing an advanced molecular beam epitaxy system for atomic-layer engineering of complex oxides, we have fabricated a variety of superlattices with stacked layers of La2-xSrxCuO4 doped to different levels. In superlattices formed by stacking highly overdoped, metallic La1.5Sr0.5CuO4 and insulating La2CuO4 layers we have observed superconductivity at temperature as high as 30 K, even though neither of the building blocks was superconducting. Different possible mechanisms of this superconductivity are discussed. (C) 2007 Elsevier B.V. All rights reserved
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Infrared nano-imaging of Dirac magnetoexcitons in graphene
Magnetic fields can have profound effects on the motion of electrons in quantum materials. Two-dimensional electron systems subject to strong magnetic fields are expected to exhibit quantized Hall conductivity, chiral edge currents and distinctive collective modes referred to as magnetoplasmons and magnetoexcitons. Generating these propagating collective modes in charge-neutral samples and imaging them at their native nanometre length scales have thus far been experimentally elusive. Here we visualize propagating magnetoexciton polaritons at their native length scales and report their magnetic-field-tunable dispersion in near-charge-neutral graphene. Imaging these collective modes and their associated nano-electro-optical responses allows us to identify polariton-modulated optical and photo-thermal electric effects at the sample edges, which are the most pronounced near charge neutrality. Our work is enabled by innovations in cryogenic near-field optical microscopy techniques that allow for the nano-imaging of the near-field responses of two-dimensional materials under magnetic fields up to 7 T. This nano-magneto-optics approach allows us to explore and manipulate magnetopolaritons in specimens with low carrier doping via harnessing high magnetic fields