Mesoscopic superconductivity and high spin polarization coexisting at metallic point contacts on Weyl semimetal TaAs

Aggarwal, Leena; Gayen, Sirshendu; Das, Shekhar; Kumar, Ratnesh; Süß, Vicky; Felser, Claudia; Shekhar, Chandra; Sheet, Goutam

doi:10.1038/ncomms13974

Cited by 64 publications

(62 citation statements)

References 41 publications

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“…We also discuss the subtle role played by inversion symmetry by contrasting a scalar with a pseudoscalar pair potential [10]. The absence of the chirality blockade for pseudoscalar pairing explains why it did not appear in the many previous studies of Andreev reflection in a Weyl semimetal [11][12][13][14][15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 86%

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

et al. 2017

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A Weyl semimetal with broken time-reversal symmetry has a minimum of two species of Weyl fermions, distinguished by their opposite chirality, in a pair of Weyl cones at opposite momenta ±K that are displaced in the direction of the magnetization. Andreev reflection at the interface between a Weyl semimetal in the normal state (N) and a superconductor (S) that pairs ±K must involve a switch of chirality, otherwise it is blocked. We show that this "chirality blockade" suppresses the superconducting proximity effect when the magnetization lies in the plane of the NS interface. A Zeeman field at the interface can provide the necessary chirality switch and activate Andreev reflection.

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Section: Introductionmentioning

confidence: 86%

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

et al. 2017

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“…Recently, superconductivity was induced at a point contact between a normal metal tip and the 3D Dirac semimetal Cd 3 As 2 [5,6]. Soon after, similar phenomenon was reproduced in the Weyl semimetal TaAs [7,8]. In particular, the induced superconductivity could coexist with preserved topological properties in the line-nodal semimetal ZrSiS [9].…”

mentioning

confidence: 94%

“…Meanwhile, unconventional superconductivity has been proposed for Cd 3 As 2 , yet based on two distinct experimental observations, i.e., a pseudogap behavior above the critical temperature [5] or an abnormal spectral shape at low temperatures [6]. For TaAs, such unconventionality is still in debate [7,8]. Therefore, more evidences are desired to clarify this issue.Most recently, a new type of topological quasiparticles was proposed for the metals hosting symmetry-protected three-band crossings (three-fold degeneracy) near the Fermi level [11][12][13].…”

mentioning

confidence: 99%

“…Such tip-induced superconductivity (TISC) is very exciting since it is extremely rare in common metals and provides a unique way of searching topological superconductivity [10]. Although the most likely origins of the TISC were speculated to be tip pressureinduced band reconstruction, confinement effect, charge carrier doping [7], or remarkable enhancement of density of states under the tip [9], the dominant mechanism remains elusive. Meanwhile, unconventional superconductivity has been proposed for Cd 3 As 2 , yet based on two distinct experimental observations, i.e., a pseudogap behavior above the critical temperature [5] or an abnormal spectral shape at low temperatures [6].…”

mentioning

confidence: 99%

“…The TISC on WC in addition to Cd 3 As 2 [5,6] and TaAs [7,8] implies a common mechanism shared by these topological semimetals. Among several possible explanations, the first candidate is band structure modifications induced by tip pressure as proposed in previous studies.…”

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confidence: 99%

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Superconductivity induced at a point contact on the topological semimetal tungsten carbide

Hou

Zong

et al. 2019

Phys. Rev. B

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We report the observation of local superconductivity induced at the point contact formed between a normal metal tip and WC -a triple point topological semimetal with super hardness. Remarkably, the maximum critical temperature is up to near 12 K but insensitive to the tip's magnetism. The lateral dimensions of the superconducting puddles were evaluated and the temperature dependencies of superconducting gap and upper critical field were also obtained. These results put constraints on the explanation of the induced superconductivity and pave a pathway for exploring topological superconductivity.Unconventional superconductors and topological materials have attracted tremendous attentions due to their novel physical properties and potential applications. Integration of superconductivity and topological nature may lead to new emergent phenomena such as exotic topological superconductivity, for the interesting interplay between electron pairing and the spin-orbit coupling [1][2][3][4]. Recently, superconductivity was induced at a point contact between a normal metal tip and the 3D Dirac semimetal Cd 3 As 2 [5, 6]. Soon after, similar phenomenon was reproduced in the Weyl semimetal TaAs [7,8]. In particular, the induced superconductivity could coexist with preserved topological properties in the line-nodal semimetal ZrSiS [9]. Such tip-induced superconductivity (TISC) is very exciting since it is extremely rare in common metals and provides a unique way of searching topological superconductivity [10]. Although the most likely origins of the TISC were speculated to be tip pressureinduced band reconstruction, confinement effect, charge carrier doping [7], or remarkable enhancement of density of states under the tip [9], the dominant mechanism remains elusive. Meanwhile, unconventional superconductivity has been proposed for Cd 3 As 2 , yet based on two distinct experimental observations, i.e., a pseudogap behavior above the critical temperature [5] or an abnormal spectral shape at low temperatures [6]. For TaAs, such unconventionality is still in debate [7,8]. Therefore, more evidences are desired to clarify this issue.Most recently, a new type of topological quasiparticles was proposed for the metals hosting symmetry-protected three-band crossings (three-fold degeneracy) near the Fermi level [11][12][13]. These triple point fermions were first observed in MoP [14] and the non-trivial topology of the new semimetal state was identified in WC subsequently [15]. As a triple point topological semimetal, WC can be regarded as an intermediate state between Dirac and Weyl semimetals with four-and two-fold degenerate points, respectively. Furthermore, the super hardness of WC ensures its topological band structure to be robust against tip pressure, providing an ideal platform to inspect the universality and mechanism of TISC in topological semimetals.In this work, we performed point contact experiments on WC using both non-magnetic and ferromagnetic normal metal tips. Local superconductivity with various lateral sizes could be i...

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Electronic Transport and Interaction of Lattice Dynamics in Topological Nodalline Semimetal HfAs₂ Single Crystals

Muhammad,

Hussain,

Islam

et al. 2024

Adv Funct Materials

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Topological semimetals represent a novel class of quantum materials displaying non‐trivial topological states that host Dirac/Weyl fermions. The intersection of Dirac/Weyl points gives rise to essential properties in a wide range of innovative transport phenomena, including extreme magnetoresistance, high mobilities, weak antilocalization, electron hydrodynamics, and various electro‐optical phenomena. In this study, the electronic, transport, phonon scattering, and interrelationships are explored in single crystals of the topological semimetal HfAs2. It reveals a weak antilocalization effect at low temperatures with high carrier density, which is attributed to perfectly compensated topological bulk and surface states. The angle‐resolved photoemission spectroscopy (ARPES) results show anisotropic Fermi surfaces and surface states indicative of the topological semimetal, further confirmed by first‐principle density functional theory (DFT) calculations. Moreover, the lattice dynamics in HfAs2 are investigated both with the Raman scattering and density functional theory. The phonon dispersion, density of states, lattice thermal conductivity, and the phonon lifetimes are computed to support the experimental findings. The softening of phonons, the broadening of Raman modes, and the reduction of phonon lifetimes with temperature suggest the enhancement of phonon anharmonicity in this new topological material, which is crucial for boosting the thermoelectric performance of topological semimetals.

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Mesoscopic superconductivity and high spin polarization coexisting at metallic point contacts on Weyl semimetal TaAs

Cited by 64 publications

References 41 publications

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

Superconductivity induced at a point contact on the topological semimetal tungsten carbide

Electronic Transport and Interaction of Lattice Dynamics in Topological Nodalline Semimetal HfAs₂ Single Crystals

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Mesoscopic superconductivity and high spin polarization coexisting at metallic point contacts on Weyl semimetal TaAs

Cited by 64 publications

References 41 publications

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

Chirality blockade of Andreev reflection in a magnetic Weyl semimetal

Superconductivity induced at a point contact on the topological semimetal tungsten carbide

Electronic Transport and Interaction of Lattice Dynamics in Topological Nodalline Semimetal HfAs2 Single Crystals

Contact Info

Product

Resources

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Electronic Transport and Interaction of Lattice Dynamics in Topological Nodalline Semimetal HfAs₂ Single Crystals