2,027 research outputs found

    High-pressure study of the basal-plane anisotropy of the upper critical field of the topological superconductor SrxBi2Se3

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    We report a high-pressure transport study of the upper-critical field, Bc2(T)B_{c2}(T), of the topological superconductor Sr0.15_{0.15}Bi2_2Se3_3 (Tc=3.0T_c = 3.0 K). Bc2(T)B_{c2}(T) was measured for magnetic fields directed along two orthogonal directions, aa and aβˆ—a^*, in the trigonal basal plane. While superconductivity is rapidly suppressed at the critical pressure pc∼3.5p_c \sim 3.5 GPa, the pronounced two-fold basal-plane anisotropy Bc2a/Bc2aβˆ—=3.2B_{c2}^a/B_{c2}^{a^*} = 3.2 at T=0.3T=0.3 K, recently reported at ambient pressure (Pan et al., 2016), is reinforced and attains a value of ∼5\sim 5 at the highest pressure (2.2 GPa). The data reveal that the unconventional superconducting state with broken rotational symmetry is robust under pressure

    Enhancement of superconductivity near the ferromagnetic quantum critical point in UCoGe

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    We report a high-pressure single crystal study of the superconducting ferromagnet UCoGe. Ac-susceptibility and resistivity measurements under pressures up to 2.2 GPa show ferromagnetism is smoothly depressed and vanishes at a critical pressure pc=1.4p_c = 1.4 GPa. Near the ferromagnetic critical point superconductivity is enhanced. Upper-critical field measurements under pressure show Bc2(0)B_{c2}(0) attains remarkably large values, which provides solid evidence for spin-triplet superconductivity over the whole pressure range. The obtained pβˆ’Tp-T phase diagram reveals superconductivity is closely connected to a ferromagnetic quantum critical point hidden under the superconducting `dome'.Comment: 4 pages, 3 figures; accepted for publication in PR

    A New Clustering Method for Landsat Images Using Local Maximums of a Multidimensional Histogram

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    This paper describes a new clustering method for a huge satellite image. This method is composed of two major schemes, a multi-layered hashing scheme for multi-dimensional histogram (MDH) and a histogram clustering scheme using MDH. The MDH construction scheme works in 3 stages. In the 1st stage it constructs a few histogram layers for each part of an image, and in the 2nd and 3rd stages histogram layers are combined into one histogram. The clustering scheme searches for local maximums of MDH, and decides clusters around local maximums as sets of hyperrectangles. The major parameters of the clustering scheme are briefly discussed, and some results are also shown

    Angular variation of the magnetoresistance of the superconducting ferromagnet UCoGe

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    We report a magnetoresistance study of the superconducting ferromagnet UCoGe. The data, taken on single-crystalline samples, show a pronounced structure at Bβˆ—=8.5B^* = 8.5~T for a field applied along the ordered moment m0m_0. Angle dependent measurements reveal this field-induced phenomenon has an uniaxial anisotropy. Magnetoresistance measurements under pressure show a rapid increase of Bβˆ—B^* to 12.8~T at 1.0~GPa. We discuss Bβˆ—B^* in terms of a field induced polarization change. Upper critical field measurements corroborate the unusual S-shaped Bc2(T)B_{c2}(T)-curve for a field along the bb-axis of the orthorhombic unit cell.Comment: 6 pages, 5 figures; accepted for publication in Phys. Rev.

    Superconductivity under pressure in the Dirac semimetal PdTe2

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    The Dirac semimetal PdTe2_2 was recently reported to be a type-I superconductor (Tc=T_c = 1.64 K, ΞΌ0Hc(0)=13.6\mu_0 H_c (0) = 13.6 mT) with unusual superconductivity of the surface sheath. We here report a high-pressure study, p≀2.5p \leq 2.5 GPa, of the superconducting phase diagram extracted from ac-susceptibility and transport measurements on single crystalline samples. Tc(p)T_c (p) shows a pronounced non-monotonous variation with a maximum Tc=T_c = 1.91 K around 0.91 GPa, followed by a gradual decrease to 1.27 K at 2.5 GPa. The critical field of bulk superconductivity in the limit Tβ†’0T \rightarrow 0, Hc(0,p)H_c(0,p), follows a similar trend and consequently the Hc(T,p)H_c(T,p)-curves under pressure collapse on a single curve: Hc(T,p)=Hc(0,p)[1βˆ’(T/Tc(p))2]H_c(T,p)=H_c(0,p)[1-(T/T_c(p))^2]. Surface superconductivity is robust under pressure as demonstrated by the large superconducting screening signal that persists for applied dc-fields Ha>HcH_a > H_c. Surprisingly, for pβ‰₯1.41p \geq 1.41 GPa the superconducting transition temperature at the surface TcST_c^S is larger than TcT_c of the bulk. Therefore surface superconductivity may possibly have a non-trivial nature and is connected to the topological surface states detected by ARPES. We compare the measured pressure variation of TcT_c with recent results from band structure calculations and discuss the importance of a Van Hove singularity.Comment: manuscript 9 pages with 8 figures + supplemental material 3 pages with 6 figure
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