Orbit topology analyzed from π phase shift of magnetic quantum oscillations in three-dimensional Dirac semimetal

With the emergence of Dirac fermion physics in the field of condensed matter, magnetic quantum oscillations (MQOs) have been used to discern the topology of orbits in Dirac materials. However, many previous researchers have relied on the single-orbit Lifshitz–Kosevich (LK) formula, which overlooks the significant effect of degenerate orbits on MQOs. Since the single-orbit LK formula is valid for massless Dirac semimetals with small cyclotron masses, it is imperative to generalize the method applicable to a wide range of Dirac semimetals, whether massless or massive. This report demonstrates how spin-degenerate orbits affect the phases in MQOs of three-dimensional massive Dirac semimetal, NbSb2. With varying the direction of the magnetic field, an abrupt π phase shift is observed due to the interference between the spin-degenerate orbits. We investigate the effect of cyclotron mass on the π phase shift and verify its close relation to the phase from the Zeeman coupling. We find that the π phase shift occurs when the cyclotron mass is half of the electron mass, indicating the effective spin gyromagnetic ratio as gs = 2. Our approach is not only useful for analyzing MQOs of massless Dirac semimetals with a small cyclotron mass but also can be used for MQOs in massive Dirac materials with degenerate orbits, especially in topological materials with a sufficiently large cyclotron mass. Furthermore, this method provides a useful way to estimate the precise gs value of the material.

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Three-dimensional Dirac semimetal and magnetic quantum oscillations in Cd3As2

Journal of Physics Conference Series ◽

10.1088/1742-6596/903/1/012038 ◽

2017 ◽

Vol 903 ◽

pp. 012038 ◽

Cited By ~ 1

Author(s):

Filip Orbanić ◽

Mario Novak ◽

Nikola Biliškov ◽

Sanda Pleslić ◽

Ivan Kokanović

Keyword(s):

Three Dimensional ◽

Quantum Oscillations ◽

Dirac Semimetal ◽

Magnetic Quantum Oscillations

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Half-Dirac Semimetal and Quantum Anomalous Hall Effect in Kagome Cd2N3 Lattice

Nanoscale Advances ◽

10.1039/d0na00530d ◽

2020 ◽

Author(s):

Xinyang Li ◽

Weixiao Ji ◽

Peiji Wang ◽

Chang-wen Zhang

Keyword(s):

Hall Effect ◽

Quantum State ◽

Anomalous Hall Effect ◽

Topological Phases ◽

Dirac Semimetal ◽

Quantum Anomalous Hall Effect ◽

Dirac Materials ◽

Low Dimensionality ◽

Dirac Semimetals ◽

Topological Phases Of Matter

Half-Dirac semimetals (HDSs), which possess 100% spin-polarizations for Dirac materials, are highly desirable for exploring various topological phases of matter, as low-dimensionality opens unprecedented opportunities for manipulating the quantum state...

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Tunable Berry curvature and transport crossover in topological Dirac semimetal KZnBi

npj Quantum Materials ◽

10.1038/s41535-021-00378-7 ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Junseong Song ◽

Byung Cheol Park ◽

Kyung Ik Sim ◽

Joonho Bang ◽

Sunghun Kim ◽

...

Keyword(s):

Three Dimensional ◽

Hall Resistance ◽

Rotational Axis ◽

Material System ◽

Chiral Fermion ◽

Quantum Phases ◽

Berry Curvature ◽

Dirac Semimetal ◽

Dirac Semimetals ◽

Single Material

AbstractTopological Dirac semimetals have emerged as a platform to engineer Berry curvature with time-reversal symmetry breaking, which allows to access diverse quantum states in a single material system. It is of interest to realize such diversity in Dirac semimetals that provides insight on correlation between Berry curvature and quantum transport phenomena. Here, we report the transition between anomalous Hall and chiral fermion states in three-dimensional topological Dirac semimetal KZnBi, which is demonstrated by tuning the direction and flux of Berry curvature. Angle-dependent magneto-transport measurements show that both anomalous Hall resistance and positive magnetoresistance are maximized at 0° between net Berry curvature and rotational axis. We find that the unexpected crossover of anomalous Hall resistance and negative magnetoresistance suddenly occurs when the angle reaches to ~70°, indicating that Berry curvature strongly correlates with quantum transports of Dirac and chiral fermions. It would be interesting to tune Berry curvature within other quantum phases such as topological superconductivity.

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Ultrafast Relaxation Dynamics of Photo-excited Dirac Fermion in Three Dimensional Dirac Semimetal Cadmium Arsenide

The 8th International Symposium on Ultrafast Phenomena and Terahertz Waves ◽

10.1364/isuptw.2016.it2a.21 ◽

2016 ◽

Cited By ~ 1

Author(s):

Wei Lu ◽

Shaofeng Ge ◽

Xuefeng liu ◽

Hong Lu ◽

Chaizhen Li ◽

...

Keyword(s):

Three Dimensional ◽

Dirac Fermion ◽

Relaxation Dynamics ◽

Dirac Semimetal ◽

Ultrafast Relaxation

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The de Haas-van Alphen quantum oscillations in a three-dimensional Dirac semimetal TiSb2

Applied Physics Letters ◽

10.1063/5.0001566 ◽

2020 ◽

Vol 116 (14) ◽

pp. 142103 ◽

Cited By ~ 1

Author(s):

Wei Xia ◽

Xianbiao Shi ◽

Yushu Wang ◽

Wenna Ge ◽

Hao Su ◽

...

Keyword(s):

Three Dimensional ◽

Quantum Oscillations ◽

Dirac Semimetal

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Berry paramagnetism in the Dirac semimetal ZrTe5

Communications Physics ◽

10.1038/s42005-021-00773-3 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Sanghyun Ji ◽

Sang-Eon Lee ◽

Myung-Hwa Jung

Keyword(s):

Electrical Transport ◽

Berry Phase ◽

Three Dimensional ◽

Peak Position ◽

Quantum Oscillation ◽

Band Shift ◽

Dirac Semimetal ◽

Linear Band ◽

Dirac Semimetals ◽

Unique Band

AbstractDirac matters have attracted a lot of interest due to their unique band structure with linear band dispersions, which have great potential for technological applications. Recently, three-dimensional Dirac and Weyl semimetals have invoked distinctive phenomena originating from a non-trivial Berry phase. In this study, we prepare single crystals of TixZr1-xTe5 with a highly anisotropic Fermi surface. Our detailed electrical transport measurements reveal that the crystals show the Lifshitz transition, and Ti doping induces a band shift. Further quantum oscillation analyses demonstrate that the TixZr1-xTe5 crystals are 3D Dirac semimetals. Additionally, we observed a minimum temperature-dependent magnetic susceptibility, which is close to a peak position of electrical resistivity. This observation is interpreted in terms of the Berry paramagnetism. Our finding paves the way to determine a band topology by magnetism and also provides a platform to apply the Berry magnetism to Dirac semimetals.

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Magnetic Quantum Oscillations from Surface States of Bi Nanowires

MRS Proceedings ◽

10.1557/opl.2011.1051 ◽

2011 ◽

Vol 1350 ◽

Author(s):

L. A. Konopko ◽

T. E. Huber ◽

A. A. Nikolaeva

Keyword(s):

Single Crystal ◽

Low Temperatures ◽

Surface States ◽

Charge Carriers ◽

Quantum Oscillations ◽

Wide Range ◽

Spin Orbit Interactions ◽

Conducting Tube ◽

Magnetic Quantum Oscillations ◽

Strong Spin

ABSTRACTIn this work, we report the results of studies of the transverse magnetoresistance (MR) of single-crystal Bi nanowires with diameter d<80 nm. The single-crystal nanowire samples were prepared by the Taylor-Ulitovsky technique. Due to the semimetal-to-semiconductor transformation and high density of surface states with strong spin-orbit interactions, the charge carriers are confined to the conducting tube made of surface states. The non monotonic changes of transverse MR that are equidistant in a direct magnetic field were observed at low temperatures in a wide range of magnetic fields up to 14 T. The period of oscillations depends on the wire diameter d as for the case of longitudinal MR. An interpretation of transverse MR oscillations is presented.

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