42 research outputs found
Phase fluctuations and Non-Fermi Liquid Properties of 2D Fermi-system with attraction
The effect of static fluctuations in the phase of the order parameter on the
normal and superconducting properties of a 2D system with attractive
four-fermion interaction has been studied. Analytic expressions for the fermion
Green function, its spectral density and the density of states are derived. The
resultant single-particle Green function clearly demonstrates non-Fermi liquid
behavior. The results show that as the temperature increases through the 2D
critical temperature the width of the quasiparticle peaks broadens
significantly. At the same time one retains the gap in quasiparticle spectrum.
The spectral density for the dynamical fluctuations can also be obtained.
Clearly the dynamical fluctuations fill the gap giving the observed pseudogap
behaviour.Comment: 4 pages, LaTeX; invited paper presented at New^3SC-2, Las Vegas, USA,
199
A wavelet-based method to measure the toroidal mode number of ELMs
The high confinement mode regime (H-mode) in tokamaks is accompanied by the occurrence of burst of MHD activity at the plasma edge, so-called edge localized modes (ELMs). Because of the short time scales involved in the ELM crash (on JET typically 0.2 ms), standard Fourier analysis can hardly be used to extract their toroidal mode number. On the other hand, the assessment of linear stability of ELMs with the ion drift effects included, makes the identification of their toroidal mode numbers an important issue, while an accurate comparison with the theory of nonlinear evolution of ELMs requires the knowledge of the nonlinear spectrum. Compared to Fourier analysis, wavelets are suitable to study transient events on time scales comparable to the wave period. Spectral analysis based on sinusoidal wavelet functions has been applied to study the spectral properties of magnetic perturbations associated with ELMs and with their precursors, in JET plasmas with toroidal rotation driven by unbalanced NBI. It is shown that, combining wavelet analysis with statistical two-point correlation techniques, it is possible to get information on the toroidal mode number structure of magnetic perturbations during the phases that immediately precede the ELM and during the ELM crash itself
Pseudogap phase formation in the crossover from Bose-Einstein condensation to BCS superconductivity in low dimensional systems
A phase diagram for a 2D metal with variable carrier density has been studied
using the modulus-phase representation for the order parameter in a fully
microscopic treatment. This amounts to splitting the degrees of freedom into
neutral fermion and charged boson degrees of freedom. Although true long range
order is forbidden in two dimensions, long range order for the neutral fermions
is possible since this does not violate any continuous symmetry. The phase
fluctuations associated with the charged degrees of freedom destroy long range
order in the full system as expected. The presence of the neutral order
parameter gives rise to new features in the superconducting condensate
formation in low dimensional systems. The resulting phase diagram contains a
new phase which lies above the superconducting (here
Berezinskii-Kosterlitz-Thouless) phase and below the normal (Fermi-liquid)
phase. We identify this phase with the pseudogap phase observed in underdoped
high- superconducting compounds above their critical temperature. We
also find that the phase diagram persists even in the presence of weak
3-dimensionalisation.Comment: 4 pages, LaTeX; invited paper presented at New^3SC-1, Baton Rouge,
USA, 1998. To be published in Int.J.Mod.Phys.
Transport Spectroscopy of the Field Induced Cascade of Lifshitz Transitions in YbRh2Si2
A series of strong anomalies in the thermoelectric power is observed in the
heavy fermion compound YbRhSi under the effect of magnetic field
varying in the range from 9.5~T to 13~T. We identify these features with a
sequence of topological transformations of the sophisticated Fermi surface of
this compound, namely a cascade of Lifshitz topological transitions. In order
to undoubtedly attribute these anomalies to the specific topological changes of
the Fermi surface, we employ the renormalized band method. Basing on its
results we suggest a simplified model consisting of the large peripheral Fermi
surface sheet and the number of continuously appearing (disappearing) small
"voids" or "necks". We account for the multiple electron scattering processes
between various components of the Fermi surface, calculate the corresponding
scattering times, and, finally, find the magnetic field dependence of the
Seebeck coefficient. The obtained analytical expression reproduces reasonably
the observed positions of the maxima and minima as well as the overall line
shapes and allows us to identify the character of corresponding topological
transformations.Comment: 7 pages, 6 figure, to appear in J. Phys. Soc. Jp
Persistence of pseudogap formation in quasi-2D systems with arbitrary carrier density
The existence of a pseudogap above the critical temperature has been widely
used to explain the anomalous behaviour of the normal state of high-temperature
superconductors. In two dimensions the existence of a pseudogap phase has
already been demonstrated in a simple model. It can now be shown that the
pseudogap phase persists even for the more realistic case where coherent
interlayer tunneling is taken into account. The effective anisotropy is
surprisingly large and even increases with increasing carrier density.Comment: 17 pages, LaTeX, 1 EMTeX figure; extended versio
High-order coupling of shear and sonic continua in JET plasmas
A recent model coupling the shear-Alfv\'{e}n and acoustic continua, which
depends strongly on the equilibrium shaping and on elongation in particular, is
employed to explain the properties of Alfv\'{e}nic activity observed on JET
plasmas below but close to the typical frequency of toroidicity-induced
Alfv\'{e}n eigenmodes (TAEs). The frequency gaps predicted by the model result
from high-order harmonics of the geodesic field-line curvature caused by plasma
shaping (as opposed to lower-order toroidicity) and give rise to high-order
geodesic acoustic eigenmodes (HOGAEs), their frequency value being close to
one-half of the TAEs one. The theoretical predictions of HOGAE frequency and
radial location are found to be in fair agreement with measurements in JET
experiments, including magnetic, reflectometry and soft x-ray data. The
stability of the observed HOGAEs is evaluated with the linear hybrid
MHD/drift-kinetic code CASTOR-K, taking into account the energetic-ion
populations produced by the NBI and ICRH heating systems. Wave-particle
resonances, along with drive/damping mechanisms, are also discussed in order to
understand the conditions leading to HOGAEs destabilization in JET plasmas.Comment: 10 pages, 11 figures, accepted for publicatio
Effective action approach and Carlson-Goldman mode in d-wave superconductors
We theoretically investigate the Carlson-Goldman (CG) mode in two-dimensional
clean d-wave superconductors using the effective ``phase only'' action
formalism. In conventional s-wave superconductors, it is known that the CG mode
is observed as a peak in the structure factor of the pair susceptibility
only just below the transition temperature T_c and only
in dirty systems. On the other hand, our analytical results support the
statement by Y.Ohashi and S.Takada, Phys.Rev.B {\bf 62}, 5971 (2000) that in
d-wave superconductors the CG mode can exist in clean systems down to the much
lower temperatures, . We also consider the manifestations of
the CG mode in the density-density and current-current correlators and discuss
the gauge independence of the obtained results.Comment: 23 pages, RevTeX4, 12 EPS figures; final version to appear in PR
Third harmonic ICRF heating of Deuterium beam ions on ASDEX Upgrade
We report on recent experiments on the ASDEX Upgrade (AUG) tokamak (major radius R ≈1.65 m, minor radius a ≈ 0.5 m) with third harmonic ICRF heating of deuterium beam ions. Prior to this work, the scheme has been developed and applied on the JET tokamak, the largest currently operating tokamak (R ≈ 3 m, a ≈ 1 m), for fusion product studies and for testing alpha particle diagnostics in preparation of ITER [1]. The experiments reported here demonstrate that this scheme can also be used in medium size tokamaks such as AUG despite their
reduced fast ion confinement.This work has been carried out within the
framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission.Postprint (published version