430 research outputs found
Optical sum in Nearly Antiferromagnetic Fermi Liquid Model
We calculate the optical sum (OS) and the kinetic energy (KE) for a tight
binding band in the Nearly Antiferromagnetic Fermi Liquid (NAFFL) model which
has had some success in describing the electronic structure of the high
cuprates. The interactions among electrons due to the exchange of spin
fluctuations profoundly change the probability of occupation of states of momentum {\bf k} and spin which is the
central quantity in the calculations of OS and KE. Normal and superconducting
states are considered as a function of temperature. Both integrals are found to
depend importantly on interactions and an independent electron model is
inadequate.Comment: 9 Pages, 5 Figures Accepted for publication in Phys. Rev.
Highly anisotropic energy gap in superconducting Ba(FeCo)As from optical conductivity measurements
We have measured the complex dynamical conductivity, , of superconducting Ba(FeCo)As ( K) at terahertz frequencies and temperatures 2 - 30 K. In the frequency
dependence of below , we observe clear signatures of the
superconducting energy gap opening. The temperature dependence of
demonstrates a pronounced coherence peak at frequencies below 15 cm (1.8
meV). The temperature dependence of the penetration depth, calculated from
, shows power-law behavior at the lowest temperatures. Analysis of
the conductivity data with a two-gap model, gives the smaller isotropic s-wave
gap of meV, while the larger gap is highly anisotropic with
possible nodes and its rms amplitude is meV. Overall, our
results are consistent with a two-band superconductor with an gap
symmetry.Comment: 6 pages, 4 figures, discussion on pair-barking scattering and
possible lifting of the nodes is adde
Optical study of superconducting Ga-rich layers in silicon
We performed phase-sensitive terahertz (0.12 - 1.2 THz) transmission
measurements of Ga-enriched layers in silicon. Below the superconducting
transition, T_{c} = 6.7 K, we find clear signatures of the formation of a
superconducting condensate and of the opening of an energy gap in the optical
spectra. The London penetration depth, \lambda(T), and the condensate density,
n_{s} = \lambda^{2} 0)/\lambda^{2}(T), as functions of temperature demonstrate
behavior, typical for conventional superconductors with \lambda(0) = 1.8 \mu m.
The terahertz spectra can be well described within the framework of Eliashberg
theory with strong electron-phonon coupling: the zero-temperature energy gap is
2\Delta(0) = 2.64 meV and 2\Delta(0)/k_{B}T_{c} = 4.6 \pm 0.1, consistent with
the amorphous state of Ga. At temperatures just above T_{c}, the optical
spectra demonstrate Drude behavior.Comment: 5 pages, 4 figure
Bosonic spectral density of epitaxial thin-film La1.83Sr0.17CuO4 superconductors from infrared conductivity measurements
We use optical spectroscopy to investigate the excitations responsible for
the structure in the optical self-energy of thin epitaxial films of
La1.83Sr0.17CuO4. Using Eliashberg formalism to invert the optical spectra we
extract the electron-boson spectral function and find that at low temperature
it has a two component structure closely matching the spin excitation spectrum
recently measured by magnetic neutron scattering. We contrast the temperature
evolution of the spectral density and the two-peak behavior in La2-xSrxCuO4
with another high temperature superconductor Bi2Sr2CaCu2O8+d. The bosonic
spectral functions of the two materials account for the low Tc of LSCO as
compared to Bi-2212
Anomalous proximity effect in d-wave superconductors
The anomalous proximity effect between a d-wave superconductor and a surface
layer with small electronic mean free path is studied theoretically in the
framework of the Eilenberger equations. The angular and spatial structure of
the pair potential and the quasiclassical propagators in the interface region
is calculated selfconsistently. The variation of the spatially-resolved
quasiparticle density of states from the bulk to the surface is studied. It is
shown that the isotropic gapless superconducting state is induced in the
disordered layer.Comment: 6 pages, 5 postscript figures. Submitted to Phys.Rev.
Bosons in high temperature superconductors: an experimental survey
We review a number of experimental techniques that are beginning to reveal
fine details of the bosonic spectrum \alpha^2F(\Omega) that dominates the
interaction between the quasiparticles in high temperature superconductors.
Angle-resolved photo emission (ARPES) shows kinks in electronic dispersion
curves at characteristic energies that agree with similar structures in the
optical conductivity and tunnelling spectra. Each technique has its advantages.
ARPES is momentum resolved and offers independent measurements of the real and
imaginary part of the contribution of the bosons to the self energy of the
quasiparticles. The optical conductivity can be used on a larger variety of
materials and with the use of maximum entropy techniques reveals rich details
of the spectra including their evolution with temperature and doping. Scanning
tunnelling spectroscopy offers spacial resolution on the unit cell level. We
find that together the various spectroscopies, including recent Raman results,
are pointing to a unified picture of a broad spectrum of bosonic excitations at
high temperature which evolves, as the temperature is lowered into a peak in
the 30 to 60 meV region and a featureless high frequency background in most of
the materials studied. This behaviour is consistent with the spectrum of spin
fluctuations as measured by magnetic neutron scattering. However, there is
evidence for a phonon contribution to the bosonic spectrum as well.Comment: 71 pages, 52 figure
Doping dependence of the many-body effects along the nodal direction in the high-Tc cuprate (Bi,Pb)_2Sr_2CaCu_2O_8
Angle-resolved photoemission spectroscopy (ARPES) is used to study the doping
dependence of the lifetime and the mass renormalization of the low energy
excitations in the high-Tc cuprate (Bi,Pb)_2Sr_2CaCu_2O_8 along the zone
diagonal. We find a linear energy de-pendence of the scattering rate for the
underdoped samples and a quadratic energy depend-ence in the overdoped case.
The mass enhancement of the quasiparticles due to the many body effects at the
Fermi energy is found to be in the order of 2 and the renormalization extends
over a large energy range for both the normal and the superconducting state.
The much discussed kink in the dispersion around 70 meV is interpreted as a
small additional effect at low temperatures.Comment: 12 pages, 3 figure
Comments on the d-wave pairing mechanism for cuprate high superconductors: Higher is different?
The question of pairing glue for the cuprate superconductors (SC)is revisited
and its determination through the angle resolved photo-emission spectroscopy
(ARPES) is discussed in detail. There are two schools of thoughts about the
pairing glue question: One argues that superconductivity in the cuprates
emerges out of doping the spin singlet resonating valence bond (RVB) state.
Since singlet pairs are already formed in the RVB state there is no need for
additional boson glue to pair the electrons. The other instead suggests that
the d-wave pairs are mediated by the collective bosons like the conventional
low SC with the alteration that the phonons are replaced by another kind
of bosons ranging from the antiferromagnetic (AF) to loop current fluctuations.
An approach to resolve this dispute is to determine the frequency and momentum
dependences of the diagonal and off-diagonal self-energies directly from
experiments like the McMillan-Rowell procedure for the conventional SC. In that
a simple d-wave BCS theory describes superconducting properties of the cuprates
well, the Eliashberg analysis of well designed high resolution experimental
data will yield the crucial frequency and momentum dependences of the
self-energies. This line of approach using ARPES are discussed in more detail
in this review, and some remaining problems are commented.Comment: Invited review article published in the Journal of Korean Physical
Society; several typos corrected and a few comments and references adde
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