Nature Search

A topological superconductor tuned by electronic correlations

The authors report superconducting topological surface states (TSS) on MBE-grown Fe(Te,Se) films by high-resolution laser-ARPES. Near the FeTe limit, the surface state disappears due to an electron-correlation-driven topological transition associated with decoherence of the d_xy-orbital-derived bands.

Haoran Lin
Christopher L. Jacobs
Shuolong Yang
ResearchOpen Access26 Dec 2025
Nature Communications

Volume: 17, P: 1-8
Electrical Conductivity of Neutron Star Matter

GORDON BAYM
CHRISTOPHER PETHICK
DAVID PINES
Research15 Nov 1969
Nature

Volume: 224, P: 674-675
Superfluidity in Neutron Stars

GORDON BAYM
CHRISTOPHER PETHICK
DAVID PINES
Research15 Nov 1969
Nature

Volume: 224, P: 673-674
Emergent ferromagnetism with superconductivity in Fe(Te,Se) van der Waals Josephson junctions

The authors study Josephson junctions where the superconductors are Fe(Te,Se) flakes and the weak link is just a 0.36 nm van-der-Waals gap between the two stacked flakes. They report global device-level transport signatures of interfacial ferromagnetism.

Gang Qiu
Hung-Yu Yang
Kang L. Wang
ResearchOpen Access23 Oct 2023
Nature Communications

Volume: 14, P: 1-9
Ultrafast terahertz control of extreme tunnel currents through single atoms on a silicon surface

Controlling electric currents on the atomic scale requires being able to handle the ultrafast timescales involved. Now, experiments have demonstrated the feasibility of terahertz scanning tunnelling microscopy as a method for doing just that.

Vedran Jelic
Krzysztof Iwaszczuk
Frank A. Hegmann
Research20 Feb 2017
Nature Physics

Volume: 13, P: 591-598
This is the forest primaeval

Christopher J. Cleal
News & Views01 Apr 1987
Nature

Volume: 326, P: 828
Bringing dark states to light

Semiconducting quantum dots have been used to harvest triplet excitons produced through singlet fission in organic semiconductors. These hybrid organic–inorganic materials may boost the efficiency of solar cells.

Christopher J. Bardeen
News & Views05 Oct 2014
Nature Materials

Volume: 13, P: 1001-1003
Photo-actuators via epitaxial growth of microcrystal arrays in polymer membranes

Photomechanical crystals are promising materials for converting photon energy into macroscopic work via reversible structural changes when exposed to light. Here the authors demonstrate highly ordered and compliant microcrystalline composites with a photomechanical performance exceeding that of single crystals.

Wenwen Xu
David M. Sanchez
Ryan C. Hayward
Research27 Jul 2023
Nature Materials

Volume: 22, P: 1152-1159
Vacancy control in acene blends links exothermic singlet fission to coherence

A complete understanding of singlet fission (SF) in molecular materials will enable the design of optimised optoelectronic devices. Here, the authors use vacancy control in acene-based blends to link coherent and incoherent SF pathways to energetics.

Clemens Zeiser
Chad Cruz
Katharina Broch
ResearchOpen Access26 Aug 2021
Nature Communications

Volume: 12, P: 1-9

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