Influence of Doping on the Topological Surface States of Crystalline Bi2Se3 Topological Insulators

Nowak, Kamil; Jurczyszyn, M.; Chrobak, M.; Maćkosz, Krzysztof; Наумов, А. В.; Olszowska, Natalia; Rosmus, Marcin; Miotkowski, I.; Kozłowski, A.; Sikora, Marcin; Przybylski, M.

doi:10.3390/ma15062083

Cited by 5 publications

(3 citation statements)

References 44 publications

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“…The cryogenic 5-axis manipulator enables rotation in large ranges of angles, and the temperature stabilization on the sample is in the range from 6.5 to 500 K. In particular, from several possible studies, magnetic topological insulators (MTIs) were intensively researched because they represent a possible route towards manipulating quantum information, coherent spin transport, and high-efficiency catalysis [14]. In the last years, URANOS research groups have tried to understand the phenomena in magnetic MTI, concentrated on studying both the magnetism of topological insulator crystals with ferromagnetic dopants in bulk [15,16], surface magnetism on a topological insulator realized by ferromagnetic monolayer [17], the magnetism of self-organizing ferromagnetic layers separated by layers of a topological insulator which can generate FM or AFM order [18,19] and axion physics [14]. Particularly important are studies on the organization of FM layers that generate intrinsic antiferromagnetic topological insulators in bulk in the compounds MnBi 2 Te 4 /(Bi 2 Te 3 ) n .…”

Section: Present Status and Scientific Highlightsmentioning

confidence: 99%

SOLARIS National Synchrotron Radiation Centre in Krakow, Poland

et al. 2023

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The SOLARIS synchrotron located in Krakow, Poland, is a third-generation light source operating at medium electron energy. The first synchrotron light was observed in 2015, and the consequent development of infrastructure lead to the first users’ experiments at soft X-ray energies in 2018. Presently, SOLARIS expands its operation towards hard X-rays with continuous developments of the beamlines and concurrent infrastructure. In the following, we will summarize the SOLARIS synchrotron design, and describe the beamlines and research infrastructure together with the main performance parameters, upgrade, and development plans.

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Section: Present Status and Scientific Highlightsmentioning

confidence: 99%

SOLARIS National Synchrotron Radiation Centre in Krakow, Poland

et al. 2023

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“…We note that the nesting condition and the changes between different Fermi level contours (e.g., hexagonal vs. hexastar shapes) depend strongly on the position of the Fermi level [ 40 , 75 , 76 ] and may, thus, be highly sensitive to the doping situation of the specific sample [ 77 ]. While the size of the CDW gap, as inferred from the slight asymmetry between

and

, does not seem to be large enough to be resolved in ARPES [ 21 , 70 , 77 ], HAS satellite diffraction peaks clearly indicate an additional long-period component of the surface charge-density corrugation.…”

Section: Resultsmentioning

confidence: 99%

Observation of Dirac Charge-Density Waves in Bi2Te2Se

et al. 2023

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While parallel segments in the Fermi level contours, often found at the surfaces of topological insulators (TIs), would imply “strong” nesting conditions, the existence of charge-density waves (CDWs)—periodic modulations of the electron density—has not been verified up to now. Here, we report the observation of a CDW at the surface of the TI Bi2Te2Se(111), below ≈350K, by helium-atom scattering and, thus, experimental evidence for a CDW involving Dirac topological electrons. Deviations of the order parameter observed below 180K, and a low-temperature break of time reversal symmetry, suggest the onset of a spin-density wave with the same period as the CDW in the presence of a prominent electron-phonon interaction, originating from Rashba spin-orbit coupling.

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“…Luo et al reported a significant improvement in THz emission from Cu-doped Bi 2 Se 3 by suppressing a high degree of intrinsic carrier concentration [26]. However, tuning of Fermi level via counter doping or electrical gating can substantially change the surface electronic structure and surface carrier mobility [28,29]. Furthermore, the mobility of the carriers greatly affects the strength of emitted THz radiation [14].…”

Section: Introductionmentioning

confidence: 99%

Excitation wavelength-dependent ultrafast THz emission from surface and bulk of three-dimensional topological insulators

Nivedan

Kumar

2023

J. Phys. D: Appl. Phys.

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Three-dimensional topological insulators possess various interesting properties that are promising for various modern applications, including in the recently emerging fields of ultrafast THz photonics and spintronics. Their gapless spin-momentum-locked topological surface states with the presence of chiral spin structure are relevant for the development of light helicity-sensitive THz emitters and detectors. In this paper, we report femtosecond excitation pulse wavelength and helicity-dependent response of Bi2Te3 and Bi2Se3 for an enhanced broadband THz pulse emission from the surface and bulk states. Specifically, the excitation wavelength has been varied in a large range from near UV to near IR, where it was observed that the photoexcitation at shorter wavelengths enhances the THz emission from both the surface and bulk states but more rapidly from the surface states. These results will be highly relevant for developing chirality-sensitive efficient THz emitters and detectors.

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Influence of Doping on the Topological Surface States of Crystalline Bi2Se3 Topological Insulators

Cited by 5 publications

References 44 publications

SOLARIS National Synchrotron Radiation Centre in Krakow, Poland

SOLARIS National Synchrotron Radiation Centre in Krakow, Poland

Observation of Dirac Charge-Density Waves in Bi2Te2Se

Excitation wavelength-dependent ultrafast THz emission from surface and bulk of three-dimensional topological insulators

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