D. Prabhakaran scite author profile

Three-dimensional (3D) topological Dirac semimetals (TDSs) represent an unusual state of quantum matter that can be viewed as "3D graphene." In contrast to 2D Dirac fermions in graphene or on the surface of 3D topological insulators, TDSs possess 3D Dirac fermions in the bulk. By investigating the electronic structure of Na3Bi with angle-resolved photoemission spectroscopy, we detected 3D Dirac fermions with linear dispersions along all momentum directions. Furthermore, we demonstrated the robustness of 3D Dirac fermions in Na3Bi against in situ surface doping. Our results establish Na3Bi as a model system for 3D TDSs, which can serve as an ideal platform for the systematic study of quantum phase transitions between rich topological quantum states.

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A stable three-dimensional topological Dirac semimetal Cd3As2

Liu

et al. 2014

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Three-dimensional (3D) topological Dirac semimetals (TDSs) are a recently proposed state of quantum matter that have attracted increasing attention in physics and materials science. A 3D TDS is not only a bulk analogue of graphene; it also exhibits non-trivial topology in its electronic structure that shares similarities with topological insulators. Moreover, a TDS can potentially be driven into other exotic phases (such as Weyl semimetals, axion insulators and topological superconductors), making it a unique parent compound for the study of these states and the phase transitions between them. Here, by performing angle-resolved photoemission spectroscopy, we directly observe a pair of 3D Dirac fermions in Cd3As2, proving that it is a model 3D TDS. Compared with other 3D TDSs, for example, β-cristobalite BiO2 (ref. 3) and Na3Bi (refs 4, 5), Cd3As2 is stable and has much higher Fermi velocities. Furthermore, by in situ doping we have been able to tune its Fermi energy, making it a flexible platform for exploring exotic physical phenomena.

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Weyl semimetal phase in the non-centrosymmetric compound TaAs

et al. 2015

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Magnetic Coulomb Phase in the Spin Ice Ho ₂ Ti ₂ O ₇

Fennell

Deen

Wildes

et al. 2009

Science

575

552

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Spin-ice materials are magnetic substances in which the spin directions map onto hydrogen positions in water ice. Their low-temperature magnetic state has been predicted to be a phase that obeys a Gauss' law and supports magnetic monopole excitations: in short, a Coulomb phase. We used polarized neutron scattering to show that the spin-ice material Ho2Ti2O7 exhibits an almost perfect Coulomb phase. Our result proves the existence of such phases in magnetic materials and strongly supports the magnetic monopole theory of spin ice.

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Measurement of the charge and current of magnetic monopoles in spin ice

Bramwell¹,

Giblin²,

Calder³

et al. 2009

Nature

355

385

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D. Prabhakaran

Discovery of a Three-Dimensional Topological Dirac Semimetal, Na ₃ Bi

A stable three-dimensional topological Dirac semimetal Cd3As2

Weyl semimetal phase in the non-centrosymmetric compound TaAs

Magnetic Coulomb Phase in the Spin Ice Ho ₂ Ti ₂ O ₇

Measurement of the charge and current of magnetic monopoles in spin ice

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About

D. Prabhakaran

Discovery of a Three-Dimensional Topological Dirac Semimetal, Na 3 Bi

A stable three-dimensional topological Dirac semimetal Cd3As2

Weyl semimetal phase in the non-centrosymmetric compound TaAs

Magnetic Coulomb Phase in the Spin Ice Ho 2 Ti 2 O 7

Measurement of the charge and current of magnetic monopoles in spin ice

Contact Info

Product

Resources

About

Discovery of a Three-Dimensional Topological Dirac Semimetal, Na ₃ Bi

Magnetic Coulomb Phase in the Spin Ice Ho ₂ Ti ₂ O ₇