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3. Transport signatures of fragile-glass dynamics in the melting of the two-dimensional vortex lattice

Author

I. Maccari, Bal K. Pokharel, J. Terzic, Surajit Dutta, J. Jesudasan, Pratap Raychaudhuri, J. Lorenzana, C. De Michele, C. Castellani, L. Benfatto, and Dragana Popović

Subjects
Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, Strongly Correlated Electrons (cond-mat.str-el), Condensed Matter - Superconductivity, Condensed Matter::Superconductivity, Soft Condensed Matter (cond-mat.soft), FOS: Physical sciences, Condensed Matter - Soft Condensed Matter
Abstract

In two-dimensional (2D) systems, the melting from a solid to an isotropic liquid can occur via an intermediate phase that retains orientational order. However, in 2D superconducting vortex lattices, the effect of orientational correlations on transport, and their interplay with disorder remain open questions. Here we study a 2D weakly pinned vortex system in amorphous MoGe films over an extensive range of temperatures ($\bm{T}$) and perpendicular magnetic fields ($\bm{H}$) using linear and nonlinear transport measurements. We find that, at low fields, the resistivity obeys the Vogel-Fulcher-Tamman (VFT) form, $\bm{\rho(T)\propto\exp[-{W}(H)/(T-T_0(H))]}$, characteristic of fragile glasses. As $\bm{H}$ increases, $\bm{T_0(H)}$ is suppressed to zero, and a standard vortex liquid behavior consistent with a $\bm{T=0}$ superconducting transition is observed. Our findings, supported also by simulations, suggest that the presence of orientational correlations gives rise to a heterogeneous dynamics responsible for the VFT behavior. The effects of quenched disorder become dominant at high $\bm{H}$, where a crossover to a strong-glass behavior is observed. This is a new insight into the dynamics of melting in 2D systems with competing orders., Comment: 16 pages, 12 figures

Published
2021
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4. Charge-order dynamics in underdoped La1.6−xNd0.4SrxCuO4 revealed by electric pulses

Author

Dragana Popović, Jan Jaroszynski, Bal K. Pokharel, Takao Sasagawa, and Y. J. Wang

Subjects
010302 applied physics, Resistive touchscreen, Materials science, Physics and Astronomy (miscellaneous), Condensed matter physics, Non-equilibrium thermodynamics, Charge (physics), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Metastability, Phase (matter), 0103 physical sciences, Cuprate, Current (fluid), 0210 nano-technology, Joule heating
Abstract

The dynamics of the charge-order domains has been investigated in La1.48Nd0.4Sr0.12CuO4, a prototypical stripe-ordered cuprate, using pulsed current injection. We first identify the regime in which nonthermal effects dominate over simple Joule heating and then demonstrate that, for small enough perturbation, pulsed current injection allows access to nonthermally induced resistive metastable states. The results are consistent with the pinning of the fluctuating charge order, with fluctuations being most pronounced at the charge-order onset temperature. The nonequilibrium effects are revealed only when the transition is approached from the charge-ordered phase. Our experiment establishes pulsed current injection as a viable and effective method for probing the charge-order dynamics in various other materials.

Published
2021

5. Magnetic field reveals vanishing Hall response in the normal state of stripe-ordered cuprates

Author

Zhenzhong Shi, Bal K. Pokharel, Dragana Popović, Takao Sasagawa, P. G. Baity, and J. Terzic

Subjects
Electronic properties and materials, Quantum fluids and solids, Science, General Physics and Astronomy, FOS: Physical sciences, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, 010305 fluids & plasmas, Superconducting properties and materials, Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, Hall effect, Electrical resistivity and conductivity, Condensed Matter::Superconductivity, 0103 physical sciences, Cuprate, 010306 general physics, Superconductivity, Physics, Multidisciplinary, Condensed matter physics, Strongly Correlated Electrons (cond-mat.str-el), Condensed Matter - Superconductivity, Order (ring theory), Charge (physics), General Chemistry, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Symmetry (physics), Magnetic field, Condensed Matter::Strongly Correlated Electrons
Abstract

The origin of the weak insulating behavior of the resistivity, i.e. \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${\rho }_{xx}\propto {\mathrm{ln}}\,(1/T)$$\end{document}ρxx∝ln(1/T), revealed when magnetic fields (H) suppress superconductivity in underdoped cuprates has been a longtime mystery. Surprisingly, the high-field behavior of the resistivity observed recently in charge- and spin-stripe-ordered La-214 cuprates suggests a metallic, as opposed to insulating, high-field normal state. Here we report the vanishing of the Hall coefficient in this field-revealed normal state for all \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$T\, The Hall effect has been used as a probe of the normal state of cuprates, when superconductivity is supressed by a magnetic field. Here, the authors report the vanishing of the Hall coefficient at high magnetic field in cuprates with stripe order and interpret it as a signature of the stripe-ordered phase.

Published
2019
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