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Your search keyword '"Kurdak, C."' showing total 11 results
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11 results on '"Kurdak, C."'

1. A New Method for Characterizing Bulk and Surface Conductivities of Three-Dimensional Topological Insulators: Inverted Resistance Measurements

Author

Eo, Y. S., Sun, K., Kurdak, Ç., Kim, D. -J., and Fisk, Z.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We introduce a new resistance measurement method that is useful in characterizing materials with both surface and bulk conduction, such as three-dimensional topological insulators. The transport geometry for this new resistance measurement configuration consists of one current lead as a closed loop that fully encloses the other current lead on the surface, and two voltage leads that are both placed outside the loop. We show that in the limit where the transport is dominated by the surface conductivity of the material, the four-terminal resistance measured from such a transport geometry is proportional to $\sigma_b/\sigma_s^2$, where $\sigma_b$ and $\sigma_s$ are the bulk and surface conductivities of the material, respectively. We call this new type of measurement \textit{inverted resistance measurement}, as the resistance scales inversely with the bulk resistivity. We discuss possible implementations of this new method by performing numerical calculations on different geometries and introduce strategies to extract the bulk and surface conductivities. We also demonstrate inverted resistance measurements on SmB$_6$, a topological Kondo insulator, using both single-sided and coaxially-aligned double-sided Corbino disk transport geometries. Using this new method, we are able to measure the bulk conductivity, even at low temperatures, where the bulk conduction is much smaller than the surface conduction in this material.

Published
2017
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2. Reduction of the low-temperature bulk gap in samarium hexaboride under high magnetic fields

Author

Wolgast, S., Eo, Y. S., Sun, K., Kurdak, Ç., Balakirev, F. F., Jaime, M., Kim, D. -J., and Fisk, Z.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

SmB$_6$ exhibits a small (15-20 meV) bandgap at low temperatures due to hybridized $d$ and $f$ electrons, a tiny (3 meV) transport activation energy $(E_{A})$ above 4 K, and surface states accessible to transport below 2 K. We study its magnetoresistance in 60-T pulsed fields between 1.5 K and 4 K. The response of the nearly $T$-independent surface states (which show no Shubnikov-de Haas oscillations) is distinct from that of the activated bulk. $E_{A}$ shrinks by 50% under fields up to 60 T. Data up to 93 T suggest that this trend continues beyond 100 T, in contrast with previous explanations. It rules out emerging theories to explain observed exotic magnetic quantum oscillations., Comment: 12 pages, 3 figures

Published
2016
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3. Consistency of Photoemission and Quantum Oscillations for Surface States of SmB6

Author

Denlinger, J. D., Jang, Sooyoung, Li, G., Chen, L., Lawson, B. J., Asaba, T., Tinsman, C., Yu, F., Sun, Kai, Allen, J. W., Kurdak, C., Kim, Dae-Jong, Fisk, Z., and Li, Lu

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The mixed valent compound SmB6 is of high current interest as the first candidate example of topologically protected surface states in a strongly correlated insulator and also as a possible host for an exotic bulk many-body state that would manifest properties of both an insulator and a metal. Two different de Haas van Alphen (dHvA) experiments have each supported one of these possibilities, while angle resolved photoemission spectroscopy (ARPES) for the (001) surface has supported the first, but without quantitative agreement to the dHvA results. We present new ARPES data for the (110) surface and a new analysis of all published dHvA data and thereby bring ARPES and dHvA into substantial consistency around the basic narrative of two dimensional surface states., Comment: 5 pages, 4 figures + supplement (12 pages, 6 figures)

Published
2016

4. Conduction through subsurface cracks in bulk topological insulators

Author

Wolgast, S., Eo, Y. S., Kurdak, Ç., Kim, D. -J., and Fisk, Z.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Topological insulators (TIs) have the singular distinction of being electronic insulators while harboring metallic, conductive surfaces. In ordinary materials, defects such as cracks and deformations are barriers to electrical conduction, intuitively making the material more electrically resistive. Peculiarly, 3D TIs should become better conductors when they are cracked because the cracks themselves, which act as conductive topological surfaces, provide additional paths for the electrical current. Significantly, for a TI material, any surface or extended defect harbors such conduction. In this letter, we demonstrate that small subsurface cracks formed within the predicted 3D TI samarium hexaboride (SmB$_{6}$) via systematic scratching or sanding results in such an increase in the electrical conduction. SmB$_{6}$ is in a unique position among TIs to exhibit this effect because its single-crystals are thick enough to harbor cracks, and because it remarkably does not appear to suffer from conduction through bulk impurities. Our results not only strengthen the building case for SmB$_{6}$'s topological nature, but are relevant to all TIs with cracks, including TI films with grain boundaries., Comment: 10 pages, 2 figures

Published
2015

5. Magnetotransport measurements of the surface states of samarium hexaboride using Corbino structures

Author

Wolgast, S, Eo, YS, Öztürk, T, Li, G, Xiang, Z, Tinsman, C, Asaba, T, Lawson, B, Yu, F, Allen, JW, Sun, K, Li, L, Kurdak, C, Kim, DJ, and Fisk, Z

Subjects
Fluids & Plasmas, Physical Sciences, Chemical Sciences, Engineering
Abstract

The recent conjecture of a topologically protected surface state in SmB6 and the verification of robust surface conduction below 4 K have prompted a large effort to understand surface states. Conventional Hall transport measurements allow current to flow on all surfaces of a topological insulator, so such measurements are influenced by contributions from multiple surfaces of varying transport character. Instead, we study magnetotransport of SmB6 using a Corbino geometry, which can directly measure the conductivity of a single, independent surface. Both (011) and (001) crystal surfaces show a strong negative magnetoresistance at all magnetic field angles measured. The (011) surface has a carrier mobility of 122cm2/V·s with a carrier density of 2.5×1013cm-2, which are significantly lower than indicated by Hall transport studies. This mobility value can explain the failure so far to observe Shubnikov-de Haas oscillations. Analysis of the angle dependence of conductivity on the (011) surface suggests a combination of a field-dependent enhancement of the carrier density and a suppression of Kondo scattering from native oxide layer magnetic moments as the likely origin of the negative magnetoresistance. Our results also reveal a hysteretic behavior whose magnitude depends on the magnetic field sweep rate and temperature. Although this feature becomes smaller when the field sweep is slower, it does not disappear or saturate during our slowest sweep-rate measurements, which is much slower than a typical magnetotransport trace. These observations cannot be explained by quantum interference corrections such as weak antilocalization but are more likely due to an extrinsic magnetic effect such as the magnetocaloric effect or glassy ordering.

Published
2015

6. Two-dimensional Fermi surfaces in Kondo insulator SmB6

Author

Li, G, Xiang, Z, Yu, F, Asaba, T, Lawson, B, Cai, P, Tinsman, C, Berkley, A, Wolgast, S, Eo, YS, Kim, Dae-Jeong, Kurdak, C, Allen, JW, Sun, K, Chen, XH, Wang, YY, Fisk, Z, and Li, Lu

Subjects
General Science & Technology
Abstract

In the Kondo insulator samarium hexaboride (SmB6), strong correlation and band hybridization lead to an insulating gap and a diverging resistance at low temperature. The resistance divergence ends at about 3 kelvin, a behavior that may arise from surface conductance. We used torque magnetometry to resolve the Fermi surface topology in this material. The observed oscillation patterns reveal two Fermi surfaces on the (100) surface plane and one Fermi surface on the (101) surface plane. The measured Fermi surface cross sections scale as the inverse cosine function of the magnetic field tilt angles, which demonstrates the two-dimensional nature of the conducting electronic states of SmB6.

Published
2014

11. Two-dimensional Fermi surfaces in Kondo insulator SmB6.

Author

Li, G., Xiang, Z., Yu, F., Asaba, T., Lawson, B., Cai, P., Tinsman, C., Berkley, A., Wolgast, S., Eo, Y. S., Dae-Jeong Kim, Kurdak, C., Allen, J. W., Sun, K., Chen, X. H., Wang, Y. Y., Fisk, Z., and Lu Li

Subjects
*FERMI surfaces, *SAMARIUM compounds, *DE Haas-van Alphen effect, *KONDO effect, *TOPOLOGICAL insulators, *MAGNETIZATION measurement, *MAGNETOMETERS
Abstract

The article discusses research describing the authors' use of torque magnetometry to resolve the Fermi surface topology in the Kondo insulator samarium hexaboride (SmB6) via the de Haas–van Alphen (dHvA) effect. Topics include observations of quantum oscillations in Kondo insulator SmB6, the observed Fermi surfaces, which were shown to be two-dimensional (2D) and arise from the crystalline (101) and (100) surface planes, and the magnitude of magnetization.

Published
2014
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