376 research outputs found
Charge imbalance and Josephson effects in superconductor-normal metal mesoscopic structures
We consider a Josephson junction the superconducting electrodes of
which are in contact with normal metal reservoirs ( means a barrier). For
temperatures near we calculate an effective critical current and the resistance of the system at the currents and . It is found that the charge imbalance,
which arises due to injection of quasiparticles from the reservoirs into
the wire, affects essentially the characteristics of the structure. The
effective critical current is always larger than the critical
current in the absence of the normal reservoirs and increases with
decreasing the ratio of the length of the wire to the charge imbalance
relaxation length . It is shown that a series of peaks arises on the
characteristics due to excitation of the Carlson-Goldman collective
modes. We find the position of Shapiro steps which deviates from that given by
the Josephson relation.Comment: 12 pages, 4 figures; accepted for publication in Phys. Rev.
Intrinsic Josephson Effect and Violation of the Josephson Relation in Layered Superconductors
Equations describing the resistive state of a layered superconductor with
anisotropic pairing are derived. The similarity with a stack of Josephson
junctions is found at small voltages only, when current density in the
direction perpendicular to the layers can be interpreted as a sum of the
Josephson superconducting, the Ohmic dissipative and the interference currents.
In the spatially uniform state differential conductivity at higher voltages
becomes negative. Nonuniformity of the current distribution generates the
branch imbalance and violates the Josephson relation between frequency and
voltage.Comment: 11 pages, no figures, revtex, to be published in Phys. Rev. Let
Subharmonic gap structure in short ballistic graphene junctions
We present a theoretical analysis of the current-voltage characteristics of a
ballistic superconductor-normal-superconductor (SNS) junction, in which a strip
of graphene is coupled to two superconducting electrodes. We focus in the
short-junction regime, where the length of the strip is much smaller than
superconducting coherence length. We show that the differential conductance
exhibits a very rich subharmonic gap structure which can be modulated by means
of a gate voltage. On approaching the Dirac point the conductance normalized by
the normal-state conductance is identical to that of a short diffusive SNS
junction.Comment: revtex4, 4 pages, 4 figure
Character of electron reflection at a normal metal-Peierls semiconductor boundary
The reflection of electrons incident from a normal metal on the boundary of
the metal with a quasi-one-dimensional conductor containing a charge-density
wave (CDW) is investigated theoretically. It is shown that the reflection is
not of an Andreev character, as it was suggested earlier, but rather of a Bragg
character. This is due to the fact that the CDW is actually an electronic
crystal, and its wave vector is a reciprocal lattice vector of the electronic
crystal. The ratio of the intensities of the standard and Bragg reflection
depends on the phase of the CDW.Comment: 9 pages, no figures, revte
On Effect of Equilibrium Fluctuations on Superfluid Density in Layered Superconductors
We calculate suppression of inter- and intralayer superconducting currents
due to equilibrium phase fluctuations and find that, in contrast to a recent
prediction, the effect of thermal fluctuations cannot account for linear
temperature dependence of the superfluid density in high-Tc superconductors at
low temperatures. Quantum fluctuations are found to dominate over thermal
fluctuations at low temperatures due to hardening of their spectrum caused by
the Josephson plasma resonance. Near Tc sizeable thermal fluctuations are found
to suppress the critical current in the stack direction stronger, than in the
direction along the layers. Fluctuations of quasiparticle branch imbalance make
the spectral density of voltage fluctuations at small frequencies non zero, in
contrast to what may be expected from a naive interpretation of Nyquist
formula.Comment: 5 pages, LaTeX, RevTeX, Submitted to PR
Linear response and collective oscillations in superconductors with d-wave pairing
Simple and physically transparent equations for the linear response of
layered superconductors with d-wave symmetry of the order parameter are derived
by means of the quasiclassic kinetic theory of superconductivity. Responses to
solenoidal and potential electric fields have different frequency dependencies.
The conductivity describing the response to the solenoidal field is limited by
the momentum relaxation, like in a normal metal. The response to the potential
electric field depends, in addition, on the branch imbalance relaxation rate.
The damping of plasma oscillations of superconducting electrons is determined
by dielectric relaxation and is small. Relaxation of branch imbalance
determined by elastic scattering is large enough to make the Carlson-Goldman
mode in d-wave superconductors overdamped.Comment: 11 pages, latex, no figures, submitted to Physical Review
Disipativni mehanizmi intrinsičnog Josephsonovog efekta u slojevitim supravodicčima s međuslojnim tuneliranjem
The mechanism of conductivityin the regime of the intrinsic Josephson effect is studied in layered superconductors with singlet d-wave pairing. The cases of coherent and incoherent interlayer tunneling of electrons are considered. The theory with coherent tunnelling describes main qualitative features of the effect observed in highly anisotropic high-Tc superconductors at voltages smaller than the amplitude of the superconducting gap, the mechanism of resistivity being related to the excitations of quasiparticles via the d-wave gap. Interaction of the Josephson junctions formed by the superconducting layers due to the charging effects is shown to be small.Proučavaju se mehanizmi vodljivosti u uvjetima intrinsičnog Josephsonovog efekta u slojevitim supravodičima sa singletnim d-valnim sparivanjem. Razmatraju se slučajevi koherentnog i nekoherentnog međuslojnog tuneliranja elektrona. Teorija s koherentnim tuneliranjem opisuje glavne kvalitativne značajke efekta koji se opaža u jako anizotropnim visokotemperaturnim supravodičima, na naponima manjim od supravodljivog procijepa, za koji se otpornost svodi na uzbudu kvazičestica putem d-valnog procijepa. Pokazuje se da je međudjelovanje Josephsonovih spojeva medu supravodljivim slojevima, koje je posljedica učinaka nabijanja, malo
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