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352 results on '"Dynes, R. C."'

1. Atomic scale strain engineering of layered sheets on the surfaces of two-dimensional materials

Author

Sarkar, N., Bandaru, P. R., and Dynes, R. C.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Atomic modulations of two-dimensional materials using scanning tunneling microscope (STM) tip-induced forces modifies their mechanical and electrical properties. In situ topographic and spectroscopic probing through electrical tunneling has been used for straining sheets of graphite, monolayer graphene and NbSe2. The findings also resolve a thirty-five-year-old controversy involving numerous proposed models to explain the source of anomalously high measured atomic amplitudes (of up to 24 Angstroms, expected 0.2 Angstroms) from atomic corrugation on graphite surfaces. Our findings attributes the anomaly to surface elastic deformation characteristics of soft 2D monatomic sheets of graphene and graphite in contrast to NbSe2 which is associated with their local bonding configurations. The tip-induced deformations are shown to induce controlled strain on the material surface atomically and it offers a new way for strain engineering. Topographic deformation of formed graphitic Moire patterns reveals the inter-layer van der Waals (vdW) strength varying across its domains. In-situ tunneling spectroscopy associated with straining of the Moire domains reveals electronic flat band formation controllably thereby creating a platform for many-body correlations. The paper cautions anomalous observations when probing 2D materials at small gap distances with their strain induced effects and provides guidelines to exploit or avoid this effect.

Published
2021

5. Magnetic effects in sulfur-decorated graphene

Author

Hwang, Choongyu, Cybart, Shane A., Shin, S. J., Kim, Sooran, Kim, Kyoo, Rappoport, T. G., Wu, S. M., Jozwiak, C., Fedorov, A. V., Mo, S. -K., Lee, D. -H., Min, B. I., Haller, E. E., Dynes, R. C., Neto, A. H. Castro, and Lanzara, Alessandra

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The interaction between two different materials can present novel phenomena that are quite different from the physical properties observed when each material stands alone. Strong electronic correlations, such as magnetism and superconductivity, can be produced as the result of enhanced Coulomb interactions between electrons. Two-dimensional materials are powerful candidates to search for the novel phenomena because of the easiness of arranging them and modifying their properties accordingly. In this work, we report magnetic effects of graphene, a prototypical non-magnetic two-dimensional semi-metal, in the proximity with sulfur, a diamagnetic insulator. In contrast to the well-defined metallic behaviour of clean graphene, an energy gap develops at the Fermi energy for the graphene/sulfur compound with decreasing temperature. This is accompanied by a steep increase of the resistance, a sign change of the slope in the magneto-resistance between high and low fields, and magnetic hysteresis. A possible origin of the observed electronic and magnetic responses is discussed in terms of the onset of low-temperature magnetic ordering. These results provide intriguing insights on the search for novel quantum phases in graphene-based compounds., Comment: 6 pages and 5 figures

Published
2016
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6. Epilogue: Superconducting Materials Past, Present and Future

Author

Chu, C. W., Canfield, P. C., Dynes, R. C., Fisk, Z., Batlogg, B., Deutscher, G., Geballe, T. H., Zhao, Z. X., Greene, R. L., Hosono, H., and Maple, M. B.

Subjects
Condensed Matter - Superconductivity
Abstract

Experimental contributors to the field of Superconducting Materials share their informal views on the subject., Comment: Epilogue to Physica C Special Issue on Superconducting Materials, Volume 514 (2015)

Published
2015
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7. Nano Josephson Superconducting Tunnel Junctions in Y-Ba-Cu-O Direct- Patterned with a Focused Helium Ion Beam

Author

Cybart, Shane A., Cho, E. Y., Wong, T. J., Wehlin, Björn H., Ma, Meng K., Huynh, Chuong, and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

Since the discovery of the unconventional copper-oxide high-transition-temperature superconductors (HTS), researchers have explored many methods to fabricate superconducting tunnel junctions from these materials for both superconducting electronics operating at the practical temperature of liquid nitrogen (77 K) and for fundamental measurements essential for testing and guiding theories of these remarkable superconductors. The difficulty is that the traditional estimate of the superconducting coherence length is very short and anisotropic in these materials, typically ~2 nm in the a-b plane and ~0.2 nm along the c-axis. The coherence volume encloses very few superconducting pairs, so even the presence of small scale inhomogeneities can locally disrupt superconductivity unlike in conventional superconductors. Therefore the electrical properties of Josephson junctions are sensitive to chemical variations and structural defects on atomic length scales, thus to make multiple uniform HTS junctions, control at the atomic level is required. In this letter, we demonstrate very high-quality all-HTS Josephson superconducting tunnel junctions (both Josephson and quasiparticle tunneling) created by using a 500 pm diameter focused beam of helium ions to direct-write tunnel barriers into YBa2Cu3O7(YBCO) thin films. With this method we demonstrate the ability to control the barrier properties continuously from conducting to insulating by varying the irradiation dose. This technique provides a reliable and reproducible pathway for the scaling up of quantum mechanical circuits operating at practical temperatures (~77 K) as well as an avenue to conduct superconducting tunneling studies in HTS for basic science.

Published
2014

8. Josephson scanning tunneling microscopy: A local and direct probe of the superconducting order parameter

Author

Kimura, Hikari, Barber Jr., R. P., Ono, S., Ando, Yoichi, and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

Direct measurements of the superconducting superfluid on the surface of vacuum-cleaved Bi2Sr2CaCu2O8(BSCCO) samples are reported. These measurements are accomplished via Josephson tunneling into the sample using a scanning tunneling microscope (STM) equipped with a superconducting tip. The spatial resolution of the STM of lateral distances less than the superconducting coherence length allows it to reveal local inhomogeneities in the pair wavefunction of the BSCCO. Instrument performance is demonstrated first with Josephson measurements of Pb films followed by the layered superconductor NbSe2. The relevant measurement parameter, the Josephson ICRN product, is discussed within the context of both BCS superconductors and the high transition temperature superconductors. The local relationship between the ICRN product and the quasiparticle density of states (DOS) gap are presented within the context of phase diagrams for BSCCO. Excessive current densities can be produced with these measurements and have been found to alter the local DOS in the BSCCO. Systematic studies of this effect were performed to determine the practical measurement limits for these experiments. Alternative methods for preparation of the BSCCO surface are also discussed., Comment: 53 pages, 26 figures, editorially accepted for Physical Review B

Published
2009
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9. Variation of the density of states in amorphous GdSi at the metal-insulator transition

Author

Bokacheva, L., Teizer, W., Hellman, F., and Dynes, R. C.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Disordered Systems and Neural Networks
Abstract

We performed detailed conductivity and tunneling mesurements on the amorphous, magnetically doped material $\alpha$-Gd$_x$Si$_{1-x}$ (GdSi), which can be driven through the metal-insulator transition by the application of an external magnetic field. Conductivity increases linearly with field near the transition and slightly slower on the metallic side. The tunneling conductance, proportional to the density of states $N(E)$, undergoes a gradual change with increasing field, from insulating, showing a soft gap at low bias, with a slightly weaker than parabolic energy dependence, i.e. $N(E) \sim E^c$, $c \lesssim 2$, towards metallic behavior, with $E^d$, $0.5 \lt d \lt 1$ energy dependence. The density of states at the Fermi level appears to be zero at low fields, as in an insulator, while the sample shows already small, but metal-like conductivity. We suggest a possible explanation to the observed effect., Comment: 6 pages, 6 figures

Published
2003
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10. Subharmonic gap structure in superconducting scanning tunneling microscope junctions

Author

Naaman, O. and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

We observe a subharmonic gap sturucture (SGS) and the Josephson effect in superconducting scanning tunneling microscope junctions with resistances below 100 kOhm. The magnitude of the n=2 SGS is shown to scale with the square of the junction normal state conductance, in agreement with theory. We show by analyzing the Josephson effect in these junctions that the superconducting phase dynamics are strongly affected by thermal fluctuations. We estimate the linewidth of the Josephson oscillations due to phase fluctuations, a quantity that may be important in modern theories of the subgap structure. While phase fluctuations may smear the SGS current onsets, we conclude that the sharpness of these onsets in our data is not limited by fluctuations., Comment: 5 pages, 5 figures. Added figure and references. Accepted in Solid State Commun

Published
2003
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11. Crossover from 2D to 3D magnetic disorder in sub-mono-atomic ferromagnetic layers

Author

frydman, A. and Dynes, R. C.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present transport and magnetoresistance (MR) measurements performed on quench condensed ultrathin films of Gd evaporated on an amorphous Ge or Sb layer. These films show a large negative MR accompanied by a hysteretic superimposed structure. When the film is coated by an overlayer of Ge or Sb the magnitude of the MR increases and the hysteretic structure disappears. We speculate that the findings are a result of a crossover from a 2D magnetic disorder in the uncoated layers of Gd to a 3D magnetic disorder as the Gd film is coated by a semiconducting layer., Comment: 4 pages, 4 figures

Published
2003
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12. Proximity effect in ultrathin Pb/Ag multilayers within the Cooper limit

Author

Bourgeois, O., Frydman, A., and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

We report on transport and tunneling measurements performed on ultra-thin Pb/Ag (strong coupled superconductor/normal metal) multilayers evaporated by quench condensation. The critical temperature and energy gap of the heterostructures oscillate with addition of each layer, demonstrating the validity of the Cooper limit model in the case of multilayers. We observe excellent agreement with a simple theory for samples with layer thickness larger than 30\AA . Samples with single layers thinner than 30\AA deviate from the Cooper limit theory. We suggest that this is due to the "inverse proximity effect" where the normal metal electrons improve screening in the superconducting ultrathin layer and thus enhance the critical temperature., Comment: 4 pages, 4 figures

Published
2003
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13. Josephson Effect in Pb/I/NbSe2 Scanning Tunneling Microscope Junctions

Author

Naaman, O., Dynes, R. C., and Bucher, E.

Subjects
Condensed Matter - Superconductivity
Abstract

We have developed a method for the reproducible fabrication of superconducting scanning tunneling microscope (STM) tips. We use these tips to form superconductor/insulator/superconductor tunnel junctions with the STM tip as one of the electrodes. We show that such junctions exhibit fluctuation dominated Josephson effects, and describe how the Josephson product IcRn can be inferred from the junctions' tunneling characteristics in this regime. This is first demonstrated for tunneling into Pb films, and then applied in studies of single crystals of NbSe2. We find that in NbSe2, IcRn is lower than expected, which could be attributed to the interplay between superconductivity and the coexisting charge density wave in this material., Comment: 3 pages, 2 figures. Presented at the New3SC-4 meeting, San Diego, Jan. 16-21 2003

Published
2003
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14. Universal transport in 2D granular superconductors

Author

Frydman, A., Naaman, O., and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The transport properties of quench condensed granular superconductors are presented and analyzed. These systems exhibit transitions from insulating to superconducting behavior as a function of inter-grain spacing. Superconductivity is characterized by broad transitions in which the resistance drops exponentially with reducing temperature. The slope of the log R versus T curves turns out to be universaly dependent on the normal state film resistance for all measured granular systems. It does not depend on the material, critical temperature, geometry, or experimental set-up. We discuss possible physical scenarios to explain these findings., Comment: 4 pages, 3 figures

Published
2002
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15. Fluctuation Dominated Josephson Tunneling with a Scanning Tunneling Microscope

Author

Naaman, O., Teizer, W., and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

We demonstrate Josephson tunneling in vacuum tunnel junctions formed between a superconducting scanning tunneling microscope tip and a Pb film, for junction resistances in the range 50-300 k$\Omega$. We show that the superconducting phase dynamics is dominated by thermal fluctuations, and that the Josephson current appears as a peak centered at small finite voltages. In the presence of microwave fields (f=15.0 GHz) the peak decreases in magnitude and shifts to higher voltages with increasing rf power, in agreement with theory., Comment: 4 pages, REVTeX, submitted to PRL

Published
2001
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16. The fabrication of reproducible superconducting scanning tunneling microscope tips

Author

Naaman, O., Teizer, W., and Dynes, R. C.

Subjects
Condensed Matter - Superconductivity
Abstract

Superconducting scanning tunneling microscope tips have been fabricated with a high degree of reproducibility. The fabrication process relies on sequential deposition of superconducting Pb and a proximity-coupled Ag capping layer onto a Pt/Ir tip. The tips were characterized by tunneling into both normal-metal and superconducting films. The simplicity of the fabrication process, along with the stability and reproducibility of the tips, clear the way for tunneling studies with a well-characterized, scannable superconducting electrode., Comment: 4 pages, 3 figures, REVTeX. Submitted to Rev. Sci. Instrum

Published
2000
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17. Interlayer Conductivity in the Superconductor Tl-Ba-Cu-O: Energetics and Energy Scales

Author

Katz, A. S., Woods, S. I., Singley, E. J., Li, T. W., Xu, M., Hinks, D. G., Dynes, R. C., and Basov, D. N.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We report on infrared studies of the c-axis electrodynamics of Tl-Ba-Cu-O (Tl-2201) crystals. A sum rule analysis reveals spectral weight shifts that can be interpreted as a kinetic energy change at the superconducting transistion. In optimally doped crystals, showing an incoherent normal state response, the kinetic energy is lowered at T < Tc, but no significant change is found in the over-doped samples, which have more coherent conductivity at T > Tc., Comment: 8 pages, 3 figures (Submitted to Phys. Rev. Lett. 23 April 1999)

Published
1999
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18. Magnetoresistance of Granular Ferromagnets - Observation of a Magnetic Proximity Effect?

Author

Frydman, A. and Dynes, R. C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have observed a superparamagnetic to ferromagnetic transition in films of isolated Ni grains covered by non-magnetic overlayers. The magnetoresistance (MR) of the films was measured as a function of the overlayer thickness. Initially, the granular Ni films exhibited negative MR curves peaked at H=0. As different materials were deposited onto the grains hysteresis developed in the MR. This behavior is ascribed to an increase of the typical domain size due to magnetic coupling between grains. The strength of the inter-grain coupling is found to correlate with the magnetic susceptibility of the overlayer material. We discuss possible mechanisms for this coupling and suggest that the data may reflect the existence of a magnetic proximity effect (analogous to the well-known effect in superconductivity) in which a ferromagnetic moment is induced in the metallic non-magnetic medium., Comment: 4 pages, 5 figures

Published
1998
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19. C-axis Josephson Tunneling Between YBCO and Pb: Direct Evidence for Mixed Order Parameter Symmetry in a High-T_c Superconductor

Author

Kouznetsov, K. A., Sun, A. G., Chen, B., Katz, A. S., Bahcall, S. R., Clarke, John, Dynes, R. C., Gajewski, D. A., Han, S. H., Maple, M. B., Giapintzakis, J., Kim, J. -T., and Ginsberg, D. M.

Subjects
Condensed Matter
Abstract

We report a new class of $c$-axis Josephson tunneling experiments in which a conventional superconductor (Pb) is deposited across a single twin boundary of a YBa_2Cu_3O_{7-\delta} crystal. We measure the critical current as a function of magnitude and angle of magnetic field applied in the plane of the junction. In all samples, we observe a clear experimental signature of an order parameter phase shift across the twin boundary. These results provide strong evidence for mixed $d$- and $s$-wave pairing in YBCO, with a reversal in the sign of the $s$-wave component across the twin boundary., Comment: 4 pages RevTex, 4 postscript figures included, submitted to Phys. Rev. Lett

Published
1997
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32. Inherent stochasticity during insulator-metal transition in VO2.

Author

Shaobo Cheng, Min-Han Lee, Tran, Richard, Yin Shi, Xing Li, Navarro, Henry, Adda, Coline, Qingping Meng, Long-Qing Chen, Dynes, R. C., Shyue Ping Ong, Schuller, Ivan K., and Yimei Zhu

Subjects
METAL-insulator transitions, TRANSMISSION electron microscopy, CRYSTAL orientation, PHASE transitions, ACTION potentials
Abstract

Vanadium dioxide (VO2), which exhibits a near-room-temperature insulator-metal transition, has great potential in applications of neuromorphic computing devices. Although its volatile switching property, which could emulate neuron spiking, has been studied widely, nanoscale studies of the structural stochasticity across the phase transition are still lacking. In this study, using in situ transmission electron microscopy and ex situ resistive switching measurement, we successfully characterized the structural phase transition between monoclinic and rutile VO2 at local areas in planar VO2/TiO2 device configuration under external biasing. After each resistive switching, different VO2 monoclinic crystal orientations are observed, forming different equilibrium states. We have evaluated a statistical cycle-to-cycle variation, demonstrated a stochastic nature of the volatile resistive switching, and presented an approach to study in-plane structural anisotropy. Our microscopic studies move a big step forward toward understanding the volatile switching mechanisms and the related applications of VO2 as the key material of neuromorphic computing. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Operando characterization of conductive filaments during resistive switching in Mott VO2.

Author

Shaobo Cheng, Min-Han Lee, Xing Li, Fratino, Lorenzo, Tesler, Federico, Myung-Geun Han, del Valle, Javier, Dynes, R. C., Rozenberg, Marcelo J., Schuller, Ivan K., and Yimei Zhu

Subjects
METAL-insulator transitions, FIBERS, TRANSMISSION electron microscopy, VANADIUM dioxide
Abstract

Vanadium dioxide (VO2) has attracted much attention owing to its metal-insulator transition near room temperature and the ability to induce volatile resistive switching, a key feature for developing novel hardware for neuromorphic computing. Despite this interest, the mechanisms for nonvolatile switching functioning as synapse in this oxide remain not understood. In this work, we use in situ transmission electron microscopy, electrical transport measurements, and numerical simulations on Au/VO2/Ge vertical devices to study the electroforming process. We have observed the formation of V5O9 conductive filaments with a pronounced metal-insulator transition and that vacancy diffusion can erase the filament, allowing for the system to "forget." Thus, both volatile and nonvolatile switching can be achieved in VO2, useful to emulate neuronal and synaptic behaviors, respectively. Our systematic operando study of the filament provides a more comprehensive understanding of resistive switching, key in the development of resistive switching-based neuromorphic computing. [ABSTRACT FROM AUTHOR]

Published
2021
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36. Comparison of measurements and simulations of series-parallel incommensurate area superconducting quantum interference device arrays fabricated from YBa2Cu3O7-δ ion damage Josephson junctions.

Author

Cybart, Shane A., Dalichaouch, T. N., Wu, S. M., Anton, S. M., Drisko, J. A., Parker, J. M., Harteneck, B. D., and Dynes, R. C.

Subjects
QUANTUM interference, QUANTUM theory, JOSEPHSON junctions, SUPERCONDUCTORS, MAGNETIC fields, SIMULATION methods & models, ELECTROMAGNETISM
Abstract

We have fabricated series-parallel (two-dimensional) arrays of incommensurate superconducting quantum interference devices (SQUIDs) using YBa2Cu3O7-δ thin film ion damage Josephson junctions. The arrays initially consisted of a grid of Josephson junctions with 28 junctions in parallel and 565 junctions in series, for a total of 15 255 SQUIDs. The 28 junctions in the parallel direction were sequentially decreased by removing them with photolithography and ion milling to allow comparisons of voltage-magnetic field (V-B) characteristics for different parallel dimensions and area distributions. Comparisons of measurements for these different configurations reveal that the maximum voltage modulation with magnetic field is significantly reduced by both the self inductances of the SQUIDs and the mutual inductances between them. Based on these results, we develop a computer simulation model from first principles which simultaneously solves the differential equations of the junctions in the array while considering the effects of self inductance, mutual inductance, and non-uniformity of junction critical currents. We find that our model can accurately predict V-B for all of the array geometries studied. A second experiment is performed where we use photolithography and ion milling to split another 28 × 565 junction array into 6 decoupled arrays to further investigate mutual interactions between adjacent SQUIDs. This work conclusively shows that the magnetic fields generated by self currents in an incommensurate array severely reduce its performance by reducing the maximum obtainable modulation voltage. [ABSTRACT FROM AUTHOR]

Published
2012
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49. Magnetic effects in sulfur-decorated graphene

Author

Hwang, Choongyu, primary, Cybart, Shane A., additional, Shin, S. J., additional, Kim, Sooran, additional, Kim, Kyoo, additional, Rappoport, T. G., additional, Wu, S. M., additional, Jozwiak, C., additional, Fedorov, A. V., additional, Mo, S.-K., additional, Lee, D.-H., additional, Min, B. I., additional, Haller, E. E., additional, Dynes, R. C., additional, Castro Neto, A. H., additional, and Lanzara, Alessandra, additional

Published
2016
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