Surface Superconductivity in Type I and Type II Superconductors

Strongin, Myron; Paskin, Arthur; Schweitzer, D.G.; Kammerer, O. F.; Craig, Paul

doi:10.1103/physrevlett.12.442

Cited by 69 publications

(37 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The superconformal symmetry is broken to OSp(4 * |2) ⊂ F(4; 2), while the SO(3) bosonic symmetry remains unbroken, since the Wilson line is neutral. To see this, note that a time-like Wilson line preserves an SO(4) = SO(3) × SO(3) rotational symmetry and translations in time, which in the conformal limit are enhanced to SO (1,2). This gives a full bosonic symmetry reduces the supersymmetries by half, so that the resulting theory preserves 4 Poincaré supersymmetries.…”

Section: Jhep10(2014)103mentioning

confidence: 99%

“…2 We identify three types of solutions. The first, given in section 5.1, we interpret as a stack of fundamental strings in the presence of D8-branes, i.e.…”

Section: Jhep10(2014)103mentioning

confidence: 99%

“…A magnetic impurity in a material can be viewed as a defect, facilitating the description of the Kondo effect, which involves the screening of said impurity at low temperatures [1]. If one puts a boundary in a system describing a superconductor, one may hope to describe surface superconductivity [2]. Topological insulators are constructed by joining two systems with different topological invariants along an interface [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Near horizon geometry of strings ending on intersecting D8/D4-branes

Estes

Krym

Pol

2014

J. High Energ. Phys.

View full text Add to dashboard Cite

We consider solutions of massive IIA supergravity corresponding to the half-BPS intersection of D8/D4-branes with fundamental strings. The 1 + 1-dimensional intersection preserves the symmetry D(2, 1; γ; 1) × SO(4). We give a reduction and partial integration of the BPS equations for this symmetry group. We then specialize to the cases of enhanced supersymmetry corresponding to γ = −1/2, −2 or γ = 1. In the first case, we show that the only solution with enhanced symmetry is given by the AdS 6 geometry describing the near horizon geometry of D8/D4-branes in the presence of an O8-plane. In the second case, we identify novel solutions corresponding to fundamental strings ending on D8-branes and a second set of novel solutions corresponding to fundamental strings ending on an O8-plane. In both cases, the fundamental string geometry contains an asymptotically flat region where the string coupling goes to zero. We also show that there are no solutions corresponding to 1+0-dimensional CFTs, which one may have hoped to construct by suspending fundamental strings between D8-branes.

show abstract

Section: Jhep10(2014)103mentioning

confidence: 99%

“…2 We identify three types of solutions. The first, given in section 5.1, we interpret as a stack of fundamental strings in the presence of D8-branes, i.e.…”

Section: Jhep10(2014)103mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Near horizon geometry of strings ending on intersecting D8/D4-branes

Estes

Krym

Pol

2014

J. High Energ. Phys.

View full text Add to dashboard Cite

show abstract

“…A large number of experimental and theoretical studies are concentrated on the families of compact B 12 icosahedrons and B 6 octahedrons with a large diversity of electrical and magnetic characteristics. The highest critical temperatures of the transition to the superconducting state in MB 6 and MB 12 compounds were found in YB 6 with T c ≤ 8.4 K and ZrB 12 with T c ≈ 6.0 K [2]. Both materials have a highly symmetrical crystal structure (CaB 6 type for YB 6 and UB 12 type for ZrB 12 ) that can be described as boron cages in which yttrium or zirconium atoms develop large vibrational amplitudes with an Einstein-like (nearly dispersionless) lattice mode.…”

Section: Introductionmentioning

confidence: 99%

“…The highest critical temperatures of the transition to the superconducting state in MB 6 and MB 12 compounds were found in YB 6 with T c ≤ 8.4 K and ZrB 12 with T c ≈ 6.0 K [2]. Both materials have a highly symmetrical crystal structure (CaB 6 type for YB 6 and UB 12 type for ZrB 12 ) that can be described as boron cages in which yttrium or zirconium atoms develop large vibrational amplitudes with an Einstein-like (nearly dispersionless) lattice mode. In spite of some common features, the two crystals have a few distinct physical characteristics: (i) while YB 6 is a classical type-II superconductor [3], ZrB 12 (at least, for temperatures above 4.5 K) may be regarded as a textbook example of type-I superconductor [4]; (ii) while the superconducting properties are enhanced at the ZrB 12 surface [4], they are suppressed in a YB 6 surface (see our tunneling data below).…”

Section: Introductionmentioning

confidence: 99%

Linear and nonlinear low-frequency electrodynamics of surface superconducting states in an yttrium hexaboride single crystal

et al. 2008

View full text Add to dashboard Cite

We report the low-frequency and tunneling studies of yttrium hexaboride single crystal. Ac susceptibility at frequencies 10 -1500 Hz has been measured in parallel to the crystal surface DC fields, H0. We found that in the DC field H0 > Hc2 DC magnetic moment completely disappears while the ac response exhibited the presence of superconductivity at the surface. Increasing of the DC field from Hc2 revealed the enlarging of losses with a maximum in the field between Hc2 and Hc3. Losses at the maximum were considerably larger than in the mixed and in the normal states. The value of the DC field, where loss peak was observed, depends on the amplitude and frequency of the ac field. Close to Tc this peak shifts below Hc2 which showed the coexistence of surface superconducting states and Abrikosov vortices. We observed a logarithmic frequency dependence of the in-phase component of the susceptibility. Such frequency dispersion of the inphase component resembles the response of spin-glass systems, but the out-of-phase component also exhibited frequency dispersion that is not a known feature of the classic spin-glass response. Analysis of the experimental data with Kramers-Kronig relations showed the possible existence of the loss peak at very low frequencies (< 5 Hz). We found that the amplitude of the third harmonic was not a cubic function of the ac amplitude even at considerably weak ac fields. This does not leave any room for treating the nonlinear effects on the basis of perturbation theory. We show that the conception of surface vortices or surface critical currents could not adequately describe the existing experimental data. Consideration of a model of slow relaxing nonequilibrium order parameter permits one to explain the partial shielding and losses of weak ac field for H0 > Hc2.

show abstract

Superconducting Quantum Metamaterials from High Pressure Melt Infiltration of Metals into Block Copolymer Double Gyroid Derived Ceramic Templates

Thedford

Beaucage

Susca

et al. 2021

Adv Funct Materials

View full text Add to dashboard Cite

Mesoscale order can lead to emergent properties including phononic bandgaps or topologically protected states. Block copolymers offer a route to mesoscale periodic architectures, but their use as structure directing agents for metallic materials has not been fully realized. A versatile approach to mesostructured metals via bulk block copolymer self‐assembly derived ceramic templates, is demonstrated. Molten indium is infiltrated into mesoporous, double gyroidal silicon nitride templates under high pressure to yield bulk, 3D periodic nanocomposites as free‐standing monoliths which exhibit emergent quantum‐scale phenomena. Vortices are artificially introduced when double gyroidal indium metal behaves as a type II superconductor, with evidence of strong pinning centers arrayed on the order of the double gyroid lattice size. Sample behavior is reproducible over months, showing high stability. High pressure infiltration of bulk block copolymer self‐assembly based ceramic templates is an enabling tool for studying high‐quality metals with previously inaccessible architectures, and paves the way for the emerging field of block‐copolymer derived quantum metamaterials.

show abstract

Surface Superconductivity in Type I and Type II Superconductors

Cited by 69 publications

References 10 publications

Near horizon geometry of strings ending on intersecting D8/D4-branes

Near horizon geometry of strings ending on intersecting D8/D4-branes

Linear and nonlinear low-frequency electrodynamics of surface superconducting states in an yttrium hexaboride single crystal

Superconducting Quantum Metamaterials from High Pressure Melt Infiltration of Metals into Block Copolymer Double Gyroid Derived Ceramic Templates

Contact Info

Product

Resources

About