Your search keyword '"Gil-Narvion, J. M."' showing total 45 results

1. Quantifying memory in spin glasses

Author

Janus Collaboration, Paga, I., He, J., Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Sudupe, A. Muñoz, Navarro, D., Orbach, R. L., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Schlagel, D. L., Seoane, B., Tarancon, A., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

Rejuvenation and memory, long considered the distinguishing features of spin glasses, have recently been proven to result from the growth of multiple length scales. This insight, enabled by simulations on the Janus~II supercomputer, has opened the door to a quantitative analysis. We combine numerical simulations with comparable experiments to introduce two coefficients that quantify memory. A third coefficient has been recently presented by Freedberg et al. We show that these coefficients are physically equivalent by studying their temperature and waiting-time dependence., Comment: 10 pages, 8 figures

Published

2023

2. Multifractality in spin glasses

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Sudupe, A. Muñoz, Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We unveil the multifractal behavior of Ising spin glasses in their low-temperature phase. Using the Janus II custom-built supercomputer, the spin-glass correlation function is studied locally. Dramatic fluctuations are found when pairs of sites at the same distance are compared. The scaling of these fluctuations, as the spin-glass coherence length grows with time, is characterized through the computation of the singularity spectrum and its corresponding Legendre transform. A comparatively small number of site pairs controls the average correlation that governs the response to a magnetic field. We explain how this scenario of dramatic fluctuations (at length scales smaller than the coherence length) can be reconciled with the smooth, self-averaging behavior that has long been considered to describe spin-glass dynamics., Comment: 15 pages, 15 figures

Published

2023

3. On the superposition principle and non-linear response in spin glasses

Author

Paga, I., Zhai, Q., Baity-Jesi, M., Calore, E., Cruz, A., Cummings, C., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Kenning, G. G., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Orbach, R. L., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Schlagel, D. L., Seoane, B., Tarancon, A., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

The extended principle of superposition has been a touchstone of spin glass dynamics for almost thirty years. The Uppsala group has demonstrated its validity for the metallic spin glass, CuMn, for magnetic fields $H$ up to 10 Oe at the reduced temperature $T_\mathrm{r}=T/T_\mathrm{g} = 0.95$, where $T_\mathrm{g}$ is the spin glass condensation temperature. For $H > 10$ Oe, they observe a departure from linear response which they ascribe to the development of non-linear dynamics. The thrust of this paper is to develop a microscopic origin for this behavior by focusing on the time development of the spin glass correlation length, $\xi(t,t_\mathrm{w};H)$. Here, $t$ is the time after $H$ changes, and $t_\mathrm{w}$ is the time from the quench for $T>T_\mathrm{g}$ to the working temperature $T$ until $H$ changes. We connect the growth of $\xi(t,t_\mathrm{w};H)$ to the barrier heights $\Delta(t_\mathrm{w})$ that set the dynamics. The effect of $H$ on the magnitude of $\Delta(t_\mathrm{w})$ is responsible for affecting differently the two dynamical protocols associated with turning $H$ off (TRM, or thermoremanent magnetization) or on (ZFC, or zero field-cooled magnetization). In this paper, we display the difference between the zero-field cooled $\xi_{\text {ZFC}}(t,t_\mathrm{w};H)$ and the thermoremanent magnetization $\xi_{\text {TRM}}(t,t_\mathrm{w};H)$ correlation lengths as $H$ increases, both experimentally and through numerical simulations, corresponding to the violation of the extended principle of superposition in line with the finding of the Uppsala Group., Comment: 23 pages and 18 figures

Published

2022

4. Memory and rejuvenation in spin glasses: aging systems are ruled by more than one length scale

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

Memory and rejuvenation effects in the magnetic response of off-equilibrium spin glasses have been widely regarded as the doorway into the experimental exploration of ultrametricity and temperature chaos (maybe the most exotic features in glassy free-energy landscapes). Unfortunately, despite more than twenty years of theoretical efforts following the experimental discovery of memory and rejuvenation, these effects have thus far been impossible to simulate reliably. Yet, three recent developments convinced us to accept this challenge: first, the custom-built Janus II supercomputer makes it possible to carry out "numerical experiments" in which the very same quantities that can be measured in single crystals of CuMn are computed from the simulation, allowing for parallel analysis of the simulation/experiment data. Second, Janus II simulations have taught us how numerical and experimental length scales should be compared. Third, we have recently understood how temperature chaos materializes in aging dynamics. All three aspects have proved crucial for reliably reproducing rejuvenation and memory effects on the computer. Our analysis shows that (at least) three different length scales play a key role in aging dynamics, while essentially all theoretical analyses of the aging dynamics emphasize the presence and the crucial role of a single glassy correlation length., Comment: Main text:13 pages, 4 figures SM: 7 pages, 8 figures

Published

2022

5. Memory and rejuvenation effects in spin glasses are governed by more than one length scale

Author

Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gonzalez-Adalid Pemartin, I., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz Sudupe, A., Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., and Yllanes, D.

Published

2023

6. Spin-glass dynamics in the presence of a magnetic field: exploration of microscopic properties

Author

Paga, I., Zhai, Q., Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A, Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Orbach, R. L., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Schlagel, D. L., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

The synergy between experiment, theory, and simulations enables a microscopic analysis of spin-glass dynamics in a magnetic field in the vicinity of and below the spin-glass transition temperature $T_\mathrm{g}$. The spin-glass correlation length, $\xi(t,t_\mathrm{w};T)$, is analysed both in experiments and in simulations in terms of the waiting time $t_\mathrm{w}$ after the spin glass has been cooled down to a stabilised measuring temperature $T

Published

2021

7. Temperature chaos is present in off-equilibrium spin-glass dynamics

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We find a dynamic effect in the non-equilibrium dynamics of a spin glass that closely parallels equilibrium temperature chaos. This effect, that we name dynamic temperature chaos, is spatially heterogeneous to a large degree. The key controlling quantity is the time-growing spin-glass coherence length. Our detailed characterization of dynamic temperature chaos paves the way for the analysis of recent and forthcoming experiments. This work has been made possible thanks to the most massive simulation to date of non-equilibrium dynamics, carried out on the Janus~II custom-built supercomputer., Comment: Version accepted for publication in Communication Physics 10 pages, 9 figures

Published

2020

8. Scaling law describes the spin-glass response in theory, experiments and simulations

Author

Zhai, Q., Paga, I., Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Orbach, R. L., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Schlagel, D. L., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks

Abstract

The correlation length $\xi$, a key quantity in glassy dynamics, can now be precisely measured for spin glasses both in experiments and in simulations. However, known analysis methods lead to discrepancies either for large external fields or close to the glass temperature. We solve this problem by introducing a scaling law that takes into account both the magnetic field and the time-dependent spin-glass correlation length. The scaling law is successfully tested against experimental measurements in a CuMn single crystal and against large-scale simulations on the Janus II dedicated computer., Comment: Revised version, including supplemental material

Published

2020

9. The Mpemba effect in spin glasses is a persistent memory effect

Author

Janus collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Lasanta, A., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

The Mpemba effect occurs when a hot system cools faster than an initially colder one, when both are refrigerated in the same thermal reservoir. Using the custom built supercomputer Janus II, we study the Mpemba effect in spin glasses and show that it is a non-equilibrium process, governed by the coherence length \xi of the system. The effect occurs when the bath temperature lies in the glassy phase, but it is not necessary for the thermal protocol to cross the critical temperature. In fact, the Mpemba effect follows from a strong relationship between the internal energy and \xi that turns out to be a sure-tell sign of being in the glassy phase. Thus, the Mpemba effect presents itself as an intriguing new avenue for the experimental study of the coherence length in supercooled liquids and other glass formers., Comment: Version accepted for publication in PNAS. 6 pages, 7 figures

Published

2018

10. Aging rate of spin glasses from simulations matches experiments

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

Experiments on spin glasses can now make precise measurements of the exponent $z(T)$ governing the growth of glassy domains, while our computational capabilities allow us to make quantitative predictions for experimental scales. However, experimental and numerical values for $z(T)$ have differed. We use new simulations on the Janus II computer to resolve this discrepancy, finding a time-dependent $z(T, t_w)$, which leads to the experimental value through mild extrapolations. Furthermore, theoretical insight is gained by studying a crossover between the $T = T_c$ and $T = 0$ fixed points., Comment: Version accepted for publication in PRL. 12 pages, 9 figures

Published

2018

11. Matching microscopic and macroscopic responses in glasses

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

We first reproduce on the Janus and Janus II computers a milestone experiment that measures the spin-glass coherence length through the lowering of free-energy barriers induced by the Zeeman effect. Secondly we determine the scaling behavior that allows a quantitative analysis of a new experiment reported in the companion Letter [S. Guchhait and R. Orbach, Phys. Rev. Lett. 118, 157203 (2017)]. The value of the coherence length estimated through the analysis of microscopic correlation functions turns out to be quantitatively consistent with its measurement through macroscopic response functions. Further, non-linear susceptibilities, recently measured in glass-forming liquids, scale as powers of the same microscopic length., Comment: 6 pages, 4 figures

Published

2017

12. A statics-dynamics equivalence through the fluctuation-dissipation ratio provides a window into the spin-glass phase from nonequilibrium measurements

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

The unifying feature of glass formers (such as polymers, supercooled liquids, colloids, granulars, spin glasses, superconductors, ...) is a sluggish dynamics at low temperatures. Indeed, their dynamics is so slow that thermal equilibrium is never reached in macroscopic samples: in analogy with living beings, glasses are said to age. Here, we show how to relate experimentally relevant quantities with the experimentally unreachable low-temperature equilibrium phase. We have performed a very accurate computation of the non-equilibrium fluctuation-dissipation ratio for the three-dimensional Edwards-Anderson Ising spin glass, by means of large-scale simulations on the special-purpose computers Janus and Janus II. This ratio (computed for finite times on very large, effectively infinite, systems) is compared with the equilibrium probability distribution of the spin overlap for finite sizes. The resulting quantitative statics-dynamics dictionary, based on observables that can be measured with current experimental methods, could allow the experimental exploration of important features of the spin-glass phase without uncontrollable extrapolations to infinite times or system sizes., Comment: Version accepted for publication in PNAS. Reuploaded to fix a typo in the list of authors

Published

2016

13. The three dimensional Ising spin glass in an external magnetic field: the role of the silent majority

Author

Janus Collaboration, Baity-Jesi, M., Banos, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iniguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Munoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We perform equilibrium parallel-tempering simulations of the 3D Ising Edwards-Anderson spin glass in a field. A traditional analysis shows no signs of a phase transition. Yet, we encounter dramatic fluctuations in the behaviour of the model: Averages over all the data only describe the behaviour of a small fraction of it. Therefore we develop a new approach to study the equilibrium behaviour of the system, by classifying the measurements as a function of a conditioning variate. We propose a finite-size scaling analysis based on the probability distribution function of the conditioning variate, which may accelerate the convergence to the thermodynamic limit. In this way, we find a non-trivial spectrum of behaviours, where a part of the measurements behaves as the average, while the majority of them shows signs of scale invariance. As a result, we can estimate the temperature interval where the phase transition in a field ought to lie, if it exists. Although this would-be critical regime is unreachable with present resources, the numerical challenge is finally well posed., Comment: 42 pages, 19 figures. Minor changes and added figure (results unchanged)

Published

2014

14. Critical parameters of the three-dimensional Ising spin glass

Author

Janus Collaboration, Baity-Jesi, M., Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Muñoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We report a high-precision finite-size scaling study of the critical behavior of the three-dimensional Ising Edwards-Anderson model (the Ising spin glass). We have thermalized lattices up to L=40 using the Janus dedicated computer. Our analysis takes into account leading-order corrections to scaling. We obtain Tc = 1.1019(29) for the critical temperature, \nu = 2.562(42) for the thermal exponent, \eta = -0.3900(36) for the anomalous dimension and \omega = 1.12(10) for the exponent of the leading corrections to scaling. Standard (hyper)scaling relations yield \alpha = -5.69(13), \beta = 0.782(10) and \gamma = 6.13(11). We also compute several universal quantities at Tc., Comment: 9 pages, 5 figures

Published

2013

15. Janus II: a new generation application-driven computer for spin-system simulations

Author

Janus Collaboration, Baity-Jesi, M., Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Muñoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Computer Science - Hardware Architecture, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics, Physics - Computational Physics

Abstract

This paper describes the architecture, the development and the implementation of Janus II, a new generation application-driven number cruncher optimized for Monte Carlo simulations of spin systems (mainly spin glasses). This domain of computational physics is a recognized grand challenge of high-performance computing: the resources necessary to study in detail theoretical models that can make contact with experimental data are by far beyond those available using commodity computer systems. On the other hand, several specific features of the associated algorithms suggest that unconventional computer architectures, which can be implemented with available electronics technologies, may lead to order of magnitude increases in performance, reducing to acceptable values on human scales the time needed to carry out simulation campaigns that would take centuries on commercially available machines. Janus II is one such machine, recently developed and commissioned, that builds upon and improves on the successful JANUS machine, which has been used for physics since 2008 and is still in operation today. This paper describes in detail the motivations behind the project, the computational requirements, the architecture and the implementation of this new machine and compares its expected performances with those of currently available commercial systems., Comment: 28 pages, 6 figures

Published

2013

16. Dynamical transition in the D = 3 Edwards-Anderson spin glass in an external magnetic field

Author

Janus Collaboration, Baity-Jesi, M., Baños, R. Alvarez, Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Muñoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We study the off-equilibrium dynamics of the three-dimensional Ising spin glass in the presence of an external magnetic field. We have performed simulations both at fixed temperature and with an annealing protocol. Thanks to the Janus special-purpose computer, based on FPGAs, we have been able to reach times equivalent to 0.01 seconds in experiments. We have studied the system relaxation both for high and for low temperatures, clearly identifying a dynamical transition point. This dynamical temperature is strictly positive and depends on the external applied magnetic field. We discuss different possibilities for the underlying physics, which include a thermodynamical spin-glass transition, a mode-coupling crossover or an interpretation reminiscent of the random first-order picture of structural glasses., Comment: Version accepted in PRE. 23 pages, 23 figures

Published

2013

17. Numerical study of the overlap Lee-Yang singularities in the three-dimensional Edwards-Anderson model

Author

Baños, R. A., Gil-Narvion, J. M., Monforte-Garcia, J., Ruiz-Lorenzo, J. J., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We have characterized numerically, using the Janus computer, the Lee-Yang complex singularities related to the overlap in the 3D Ising spin glass with binary couplings in a wide range of temperatures (both in the critical and in the spin-glass phase). Studying the behavior of the zeros at the critical point, we have obtained an accurate measurement of the anomalous dimension in very good agreement with the values quoted in the literature. In addition, by studying the density of the zeros we have been able to characterize the phase transition and to investigate the Edwards-Anderson order parameter in the spin-glass phase, finding agreement with the values obtained using more conventional techniques., Comment: 20 pages, 11 figures. Some typos corrected and references added

Published

2012

18. Reconfigurable computing for Monte Carlo simulations: results and prospects of the Janus project

Author

Janus Collaboration, Baity-Jesi, M., Banos, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iniguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Munoz, Navarro, D., Parisi, G., Pivanti, M., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Hardware Architecture

Abstract

We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin glasses, theoretical models for the behavior of glassy materials. FPGAs (as compared to GPUs or many-core processors) provide a complementary approach to massively parallel computing. In particular, our model problem is formulated in terms of binary variables, and floating-point operations can be (almost) completely avoided. The FPGA architecture allows us to run many independent threads with almost no latencies in memory access, thus updating up to 1024 spins per cycle. We describe Janus in detail and we summarize the physics results obtained in four years of operation of this machine; we discuss two types of physics applications: long simulations on very large systems (which try to mimic and provide understanding about the experimental non-equilibrium dynamics), and low-temperature equilibrium simulations using an artificial parallel tempering dynamics. The time scale of our non-equilibrium simulations spans eleven orders of magnitude (from picoseconds to a tenth of a second). On the other hand, our equilibrium simulations are unprecedented both because of the low temperatures reached and for the large systems that we have brought to equilibrium. A finite-time scaling ansatz emerges from the detailed comparison of the two sets of simulations. Janus has made it possible to perform spin-glass simulations that would take several decades on more conventional architectures. The paper ends with an assessment of the potential of possible future versions of the Janus architecture, based on state-of-the-art technology., Comment: 19 pages, 3 figures

Published

2012

19. Thermodynamic glass transition in a spin glass without time-reversal symmetry

Author

Janus Collaboration, Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Muñoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

Spin glasses are a longstanding model for the sluggish dynamics that appears at the glass transition. However, spin glasses differ from structural glasses for a crucial feature: they enjoy a time reversal symmetry. This symmetry can be broken by applying an external magnetic field, but embarrassingly little is known about the critical behaviour of a spin glass in a field. In this context, the space dimension is crucial. Simulations are easier to interpret in a large number of dimensions, but one must work below the upper critical dimension (i.e., in d<6) in order for results to have relevance for experiments. Here we show conclusive evidence for the presence of a phase transition in a four-dimensional spin glass in a field. Two ingredients were crucial for this achievement: massive numerical simulations were carried out on the Janus special-purpose computer, and a new and powerful finite-size scaling method., Comment: 10 pages, 6 figures

Published

2012

20. Sample-to-sample fluctuations of the overlap distributions in the three-dimensional Edwards-Anderson spin glass

Author

The Janus Collaboration, Baños, R. Alvarez, Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

We study the sample-to-sample fluctuations of the overlap probability densities from large-scale equilibrium simulations of the three-dimensional Edwards-Anderson spin glass below the critical temperature. Ultrametricity, Stochastic Stability and Overlap Equivalence impose constraints on the moments of the overlap probability densities that can be tested against numerical data. We found small deviations from the Ghirlanda-Guerra predictions, which get smaller as system size increases. We also focus on the shape of the overlap distribution, comparing the numerical data to a mean-field-like prediction in which finite-size effects are taken into account by substituting delta functions with broad peaks, Comment: 11 pages, 8 figures; version accepted for publication on PRB and updated Refs

Published

2011

21. Static versus dynamic heterogeneities in the D = 3 Edwards-Anderson-Ising spin glass

Author

Janus Collaboration, Banos, R. Alvarez, Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Munoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We numerically study the aging properties of the dynamical heterogeneities in the Ising spin glass. We find that a phase transition takes place during the aging process. Statics-dynamics correspondence implies that systems of finite size in equilibrium have static heterogeneities that obey Finite-Size Scaling, thus signaling an analogous phase transition in the thermodynamical limit. We compute the critical exponents and the transition point in the equilibrium setting, and use them to show that aging in dynamic heterogeneities can be described by a Finite-Time Scaling Ansatz, with potential implications for experimental work., Comment: Version accepted for publication in Phys. Rev. Lett. 4 pages, 3 postscript figures

Published

2010

22. Nature of the spin-glass phase at experimental length scales

Author

Janus Collaboration, Banos, R. Alvarez, Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Munoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

We present a massive equilibrium simulation of the three-dimensional Ising spin glass at low temperatures. The Janus special-purpose computer has allowed us to equilibrate, using parallel tempering, L=32 lattices down to T=0.64 Tc. We demonstrate the relevance of equilibrium finite-size simulations to understand experimental non-equilibrium spin glasses in the thermodynamical limit by establishing a time-length dictionary. We conclude that non-equilibrium experiments performed on a time scale of one hour can be matched with equilibrium results on L=110 lattices. A detailed investigation of the probability distribution functions of the spin and link overlap, as well as of their correlation functions, shows that Replica Symmetry Breaking is the appropriate theoretical framework for the physically relevant length scales. Besides, we improve over existing methodologies to ensure equilibration in parallel tempering simulations., Comment: 48 pages, 19 postscript figures, 9 tables. Version accepted for publication in the Journal of Statistical Mechanics

Published

2010

23. Critical Behavior of Three-Dimensional Disordered Potts Models with Many States

Author

Banos, R. Alvarez, Cruz, A., Fernandez, L. A., Gordillo-Guerrero, A., Gil-Narvion, J. M., Guidetti, M., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Munoz, Navarro, D., Parisi, G., Perez-Gaviro, S., Ruiz-Lorenzo, J. J., Seoane, B., Schifano, S. F., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

We study the 3D Disordered Potts Model with p=5 and p=6. Our numerical simulations (that severely slow down for increasing p) detect a very clear spin glass phase transition. We evaluate the critical exponents and the critical value of the temperature, and we use known results at lower $p$ values to discuss how they evolve for increasing p. We do not find any sign of the presence of a transition to a ferromagnetic regime., Comment: 9 pages and 9 Postscript figures. Final version published in J. Stat. Mech

Published

2010

24. Superposition principle and nonlinear response in spin glasses

Author

Paga, I., primary, Zhai, Q., additional, Baity-Jesi, M., additional, Calore, E., additional, Cruz, A., additional, Cummings, C., additional, Fernandez, L. A., additional, Gil-Narvion, J. M., additional, Pemartin, I. Gonzalez-Adalid, additional, Gordillo-Guerrero, A., additional, Iñiguez, D., additional, Kenning, G. G., additional, Maiorano, A., additional, Marinari, E., additional, Martin-Mayor, V., additional, Moreno-Gordo, J., additional, Muñoz-Sudupe, A., additional, Navarro, D., additional, Orbach, R. L., additional, Parisi, G., additional, Perez-Gaviro, S., additional, Ricci-Tersenghi, F., additional, Ruiz-Lorenzo, J. J., additional, Schifano, S. F., additional, Schlagel, D. L., additional, Seoane, B., additional, Tarancon, A., additional, and Yllanes, D., additional

Published

2023

25. Spin Glass Simulations on the Janus Architecture: A Desperate Quest for Strong Scaling

Author

Baity-Jesi, M., Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., Yllanes, D., Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Caragiannis, Ioannis, editor, Alexander, Michael, editor, Badia, Rosa Maria, editor, Cannataro, Mario, editor, Costan, Alexandru, editor, Danelutto, Marco, editor, Desprez, Frédéric, editor, Krammer, Bettina, editor, Sahuquillo, Julio, editor, Scott, Stephen L., editor, and Weidendorfer, Josef, editor

Published

2013

26. An FPGA-Based Supercomputer for Statistical Physics: The Weird Case of Janus

Author

Baity-Jesi, M., Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Mũnoz, Navarro, D., Parisi, G., Pivanti, M., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., Yllanes, D., Vanderbauwhede, Wim, editor, and Benkrid, Khaled, editor

Published

2013

27. Temperature chaos is present in off-equilibrium spin-glass dynamics

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Pemartin, I. Gonzalez-Adalid, Gordillo-Guerrero, A., I��iguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Mu��oz-Sudupe, A., Navarro, D., Paga, I., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Spin glass, Thermodynamic equilibrium, QC1-999, Chaos theory, Dynamics, Glass, Spin glass, Supercomputers, Chaotic, FOS: Physical sciences, General Physics and Astronomy, Non-equilibrium thermodynamics, out of equilibrium dynamics, Astrophysics, 01 natural sciences, NO, 010305 fluids & plasmas, PE3_15, Fragility, chaos in temperature, Phase (matter), 0103 physical sciences, Janus, Statistical physics, 010306 general physics, Physics, spin glass models, Física, Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Supercomputers, Chaos theory, Dynamics, Coherence length, Condensed Matter::Soft Condensed Matter, Nonlinear Sciences::Chaotic Dynamics, QB460-466, Glass

Abstract

We find a dynamic effect in the non-equilibrium dynamics of a spin glass that closely parallels equilibrium temperature chaos. This effect, that we name dynamic temperature chaos, is spatially heterogeneous to a large degree. The key controlling quantity is the time-growing spin-glass coherence length. Our detailed characterization of dynamic temperature chaos paves the way for the analysis of recent and forthcoming experiments. This work has been made possible thanks to the most massive simulation to date of non-equilibrium dynamics, carried out on the Janus~II custom-built supercomputer., Comment: Version accepted for publication in Communication Physics 10 pages, 9 figures

Published

2021

28. Reconfigurable computing for Monte Carlo simulations: Results and prospects of the Janus project

Author

Baity-Jesi, M., Baños, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iñiguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz Sudupe, A., Navarro, D., Parisi, G., Pivanti, M., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., and Yllanes, D.

Published

2012

29. Spin-glass dynamics in the presence of a magnetic field: exploration of microscopic properties

Author

Paga, I, primary, Zhai, Q, additional, Baity-Jesi, M, additional, Calore, E, additional, Cruz, A, additional, Fernandez, L A, additional, Gil-Narvion, J M, additional, Gonzalez-Adalid Pemartin, I, additional, Gordillo-Guerrero, A, additional, Iñiguez, D, additional, Maiorano, A, additional, Marinari, E, additional, Martin-Mayor, V, additional, Moreno-Gordo, J, additional, Muñoz-Sudupe, A, additional, Navarro, D, additional, Orbach, R L, additional, Parisi, G, additional, Perez-Gaviro, S, additional, Ricci-Tersenghi, F, additional, Ruiz-Lorenzo, J J, additional, Schifano, S F, additional, Schlagel, D L, additional, Seoane, B, additional, Tarancon, A, additional, Tripiccione, R, additional, and Yllanes, D, additional

Published

2021

30. Scaling Law Describes the Spin-Glass Response in Theory, Experiments, and Simulations

Author

Zhai, Q., primary, Paga, I., additional, Baity-Jesi, M., additional, Calore, E., additional, Cruz, A., additional, Fernandez, L. A., additional, Gil-Narvion, J. M., additional, Gonzalez-Adalid Pemartin, I., additional, Gordillo-Guerrero, A., additional, Iñiguez, D., additional, Maiorano, A., additional, Marinari, E., additional, Martin-Mayor, V., additional, Moreno-Gordo, J., additional, Muñoz-Sudupe, A., additional, Navarro, D., additional, Orbach, R. L., additional, Parisi, G., additional, Perez-Gaviro, S., additional, Ricci-Tersenghi, F., additional, Ruiz-Lorenzo, J. J., additional, Schifano, S. F., additional, Schlagel, D. L., additional, Seoane, B., additional, Tarancon, A., additional, Tripiccione, R., additional, and Yllanes, D., additional

Published

2020

31. A statics-dynamics equivalence through the fluctuation-dissipation ratio provides a window into the spin-glass phase from nonequilibrium measurements

Author

Janus Collaboration, Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., I��iguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Mu��oz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

spin glasses, Spin glass, Física-Modelos matemáticos, Computation, Non-equilibrium thermodynamics, FOS: Physical sciences, 01 natural sciences, glasses, Condensed Matter::Disordered Systems and Neural Networks, 010305 fluids & plasmas, NO, 0103 physical sciences, Statistical physics, Janus, 010306 general physics, Statics, Equivalence (measure theory), Condensed Matter - Statistical Mechanics, Mathematics, Multidisciplinary, Statistical Mechanics (cond-mat.stat-mech), Física, Disordered Systems and Neural Networks (cond-mat.dis-nn), Dissipation, Condensed Matter - Disordered Systems and Neural Networks, fluctuation-dissipation relation, statics-dynamics equivalence, out-of-equilibrium dynamics, Condensed Matter::Soft Condensed Matter, Physical Sciences, Probability distribution, Fluctuation-dissipation relation, Glasses, Out-of-equilibrium dynamics, Spin glasses, Statics-dynamics equivalence

Abstract

The unifying feature of glass formers (such as polymers, supercooled liquids, colloids, granulars, spin glasses, superconductors, ...) is a sluggish dynamics at low temperatures. Indeed, their dynamics is so slow that thermal equilibrium is never reached in macroscopic samples: in analogy with living beings, glasses are said to age. Here, we show how to relate experimentally relevant quantities with the experimentally unreachable low-temperature equilibrium phase. We have performed a very accurate computation of the non-equilibrium fluctuation-dissipation ratio for the three-dimensional Edwards-Anderson Ising spin glass, by means of large-scale simulations on the special-purpose computers Janus and Janus II. This ratio (computed for finite times on very large, effectively infinite, systems) is compared with the equilibrium probability distribution of the spin overlap for finite sizes. The resulting quantitative statics-dynamics dictionary, based on observables that can be measured with current experimental methods, could allow the experimental exploration of important features of the spin-glass phase without uncontrollable extrapolations to infinite times or system sizes., Comment: Version accepted for publication in PNAS. Reuploaded to fix a typo in the list of authors

Published

2017

32. Dynamical transition in the D=3 Edwards-Anderson spin glass in an external magnetic field

Author

Janus Collaboration, Baity-Jesi, M., Ba��os, R. Alvarez, Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, I��iguez, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Sudupe, A. Mu��oz, Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Physics, Spin glass, Física-Modelos matemáticos, Condensed matter physics, Annealing (metallurgy), Crossover, FOS: Physical sciences, Física, Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, 01 natural sciences, 010305 fluids & plasmas, Magnetic field, NO, Transition point, 0103 physical sciences, Ising spin, Janus, 010306 general physics, Spin Glass

Abstract

We study the off-equilibrium dynamics of the three-dimensional Ising spin glass in the presence of an external magnetic field. We have performed simulations both at fixed temperature and with an annealing protocol. Thanks to the Janus special-purpose computer, based on FPGAs, we have been able to reach times equivalent to 0.01 seconds in experiments. We have studied the system relaxation both for high and for low temperatures, clearly identifying a dynamical transition point. This dynamical temperature is strictly positive and depends on the external applied magnetic field. We discuss different possibilities for the underlying physics, which include a thermodynamical spin-glass transition, a mode-coupling crossover or an interpretation reminiscent of the random first-order picture of structural glasses., Comment: Version accepted in PRE. 23 pages, 23 figures

Published

2014

33. Nature of the spin-glass phase at experimental length scales

Author

Banos, R. A., Alvarez Banos, R., Cruz, A., Fernandez, L. A., Gil Narvion, J. M., Gordillo Guerrero, A., Guidetti, M., Maiorano, Andrea, Mantovani, F., Marinari, Vincenzo, Marinari, E., Martin Mayor, V., Monforte Garcia, J., Sudupe, A. M., Munoz Sudupe, A., Muoz Sudupe, A., Navarro, D., Parisi, Giorgio, Perez Gaviro, S., Ruiz Lorenzo, J. J., Schifano, S. F., Seoane, B., Tarancon, A., Tripiccione, R., and Yllanes, D.

Subjects

Statistics and Probability, spin glasses, Spin glass, Física-Modelos matemáticos, disordered systems (theory), FOS: Physical sciences, spin glasses (theory), classical monte carlo simulations, 01 natural sciences, 010305 fluids & plasmas, NO, numerical simulations, Phase (matter), 0103 physical sciences, Janus, Statistical physics, Symmetry breaking, 010306 general physics, Condensed Matter - Statistical Mechanics, Spin-½, Physics, Statistical Mechanics (cond-mat.stat-mech), Replica, Física, Statistical and Nonlinear Physics, dynamics, Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Probability distribution, Parallel tempering, Statistics, Probability and Uncertainty

Abstract

We present a massive equilibrium simulation of the three-dimensional Ising spin glass at low temperatures. The Janus special-purpose computer has allowed us to equilibrate, using parallel tempering, L=32 lattices down to T=0.64 Tc. We demonstrate the relevance of equilibrium finite-size simulations to understand experimental non-equilibrium spin glasses in the thermodynamical limit by establishing a time-length dictionary. We conclude that non-equilibrium experiments performed on a time scale of one hour can be matched with equilibrium results on L=110 lattices. A detailed investigation of the probability distribution functions of the spin and link overlap, as well as of their correlation functions, shows that Replica Symmetry Breaking is the appropriate theoretical framework for the physically relevant length scales. Besides, we improve over existing methodologies to ensure equilibration in parallel tempering simulations., 48 pages, 19 postscript figures, 9 tables. Version accepted for publication in the Journal of Statistical Mechanics

Published

2010

34. The three-dimensional Ising spin glass in an external magnetic field: the role of the silent majority

Author

Baity-Jesi, M, primary, Baños, R A, additional, Cruz, A, additional, Fernandez, L A, additional, Gil-Narvion, J M, additional, Gordillo-Guerrero, A, additional, Iñiguez, D, additional, Maiorano, A, additional, Mantovani, F, additional, Marinari, E, additional, Martin-Mayor, V, additional, Monforte-Garcia, J, additional, Muñoz Sudupe, A, additional, Navarro, D, additional, Parisi, G, additional, Perez-Gaviro, S, additional, Pivanti, M, additional, Ricci-Tersenghi, F, additional, Ruiz-Lorenzo, J J, additional, Schifano, S F, additional, Seoane, B, additional, Tarancon, A, additional, Tripiccione, R, additional, and Yllanes, D, additional

Published

2014

35. Numerical study of the overlap Lee–Yang singularities in the three-dimensional Edwards–Anderson model

Author

Baños, R A, primary, Gil-Narvion, J M, additional, Monforte-Garcia, J, additional, Ruiz-Lorenzo, J J, additional, and Yllanes, D, additional

Published

2013

36. Sample-to-sample fluctuations of the overlap distributions in the three-dimensional Edwards-Anderson spin glass

Author

Baños, R. A., primary, Cruz, A., additional, Fernandez, L. A., additional, Gil-Narvion, J. M., additional, Gordillo-Guerrero, A., additional, Guidetti, M., additional, Iñiguez, D., additional, Maiorano, A., additional, Mantovani, F., additional, Marinari, E., additional, Martin-Mayor, V., additional, Monforte-Garcia, J., additional, Muñoz Sudupe, A., additional, Navarro, D., additional, Parisi, G., additional, Perez-Gaviro, S., additional, Ricci-Tersenghi, F., additional, Ruiz-Lorenzo, J. J., additional, Schifano, S. F., additional, Seoane, B., additional, Tarancón, A., additional, Tripiccione, R., additional, and Yllanes, D., additional

Published

2011

37. Static versus Dynamic Heterogeneities in theD=3Edwards-Anderson-Ising Spin Glass

Author

Alvarez Baños, R., primary, Cruz, A., additional, Fernandez, L. A., additional, Gil-Narvion, J. M., additional, Gordillo-Guerrero, A., additional, Guidetti, M., additional, Maiorano, A., additional, Mantovani, F., additional, Marinari, E., additional, Martin-Mayor, V., additional, Monforte-Garcia, J., additional, Muñoz Sudupe, A., additional, Navarro, D., additional, Parisi, G., additional, Perez-Gaviro, S., additional, Ruiz-Lorenzo, J. J., additional, Schifano, S. F., additional, Seoane, B., additional, Tarancon, A., additional, Tripiccione, R., additional, and Yllanes, D., additional

Published

2010

38. Nature of the spin-glass phase at experimental length scales

Author

Alvarez Baños, R, primary, Cruz, A, additional, Fernandez, L A, additional, Gil-Narvion, J M, additional, Gordillo-Guerrero, A, additional, Guidetti, M, additional, Maiorano, A, additional, Mantovani, F, additional, Marinari, E, additional, Martin-Mayor, V, additional, Monforte-Garcia, J, additional, Muñoz Sudupe, A, additional, Navarro, D, additional, Parisi, G, additional, Perez-Gaviro, S, additional, Ruiz-Lorenzo, J J, additional, Schifano, S F, additional, Seoane, B, additional, Tarancon, A, additional, Tripiccione, R, additional, and Yllanes, D, additional

Published

2010

39. Critical behavior of three-dimensional disordered Potts models with many states

Author

Alvarez Baños, R, primary, Cruz, A, additional, Fernandez, L A, additional, Gordillo-Guerrero, A, additional, Gil-Narvion, J M, additional, Guidetti, M, additional, Maiorano, A, additional, Mantovani, F, additional, Marinari, E, additional, Martin-Mayor, V, additional, Monforte-Garcia, J, additional, Muñoz Sudupe, A, additional, Navarro, D, additional, Parisi, G, additional, Perez-Gaviro, S, additional, Ruiz-Lorenzo, J J, additional, Seoane, B, additional, Schifano, S F, additional, Tarancon, A, additional, Tripiccione, R, additional, and Yllanes, D, additional

Published

2010

40. Spin Glass Simulations on the Janus Architecture: A Desperate Quest for Strong Scaling

Author

Baity-Jesi, M., Banos, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Guidetti, M., Iniguez, D., Maiorano, A., Mantovani, F., Marinari, E., Victor Martin-Mayor, Monforte-Garcia, J., Munoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J., Schifano, S. F., Seoane, B., Tarancon, A., Tellez, P., Tripiccione, R., Yllanes, D., Caragiannis, I., Alexander, M., Badia, Rm, Cannataro, M., Costan, A., Danelutto, M., Desprez, F., Krammer, B., Sahuquillo, J., Scott, Sl, and Weidendorfer, J.

41. Critical parameters of the three-dimensional Ising spin glass.

Author

Baity-Jesi, M., Banos, R. A., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Inigue, D., Maiorano, A., Mantovani, F., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Munoz Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Pivanti, M., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., and Schifano, S. F.

Subjects

*ISING model, *SPIN glasses, *MAGNETIC alloys, *PHASE transitions, *MAGNETIZATION

Abstract

We report a high-precision finite-size scaling study of the critical behavior of the three-dimensional Ising Edwards-Anderson model (the Ising spin glass). We have thermalized lattices up to L = 40 using the Janus dedicated computer. Our analysis takes into account leading-order corrections to scaling. We obtain Tc = 1.1019(29) for the critical temperature, v = 2.562(42) for the thermal exponent, η = -0.3900(36) for the anomalous dimension, and ω = 1.12(10) for the exponent of the leading corrections to scaling. Standard (hyper)scaling relations yield α = -5.69(13), β =0.782(10), and γ =6.13(11). We also compute several universal quantities at Tc. [ABSTRACT FROM AUTHOR]

Published

2013

42. Aging Rate of Spin Glasses from Simulations Matches Experiments.

Author

Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Moreno-Gordo, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., and Tarancon, A.

Subjects

*AGING, *SPIN glasses, *EXTRAPOLATION

Abstract

Experiments on spin glasses can now make precise measurements of the exponent z(T) governing the growth of glassy domains, while our computational capabilities allow us to make quantitative predictions for experimental scales. However, experimental and numerical values for z(T) have differed. We use new simulations on the Janus II computer to resolve this discrepancy, finding a time-dependent z(T,tw), which leads to the experimental value through mild extrapolations. Furthermore, theoretical insight is gained by studying a crossover between the T=Tc and T=0 fixed points. [ABSTRACT FROM AUTHOR]

Published

2018

43. Matching Microscopic and Macroscopic Responses in Glasses.

Author

Baity-Jesi, M., Calore, E., Cruz, A., Fernandez, L. A., Gil-Narvion, J. M., Gordillo-Guerrero, A., Iñiguez, D., Maiorano, A., Marinari, E., Martin-Mayor, V., Monforte-Garcia, J., Muñoz-Sudupe, A., Navarro, D., Parisi, G., Perez-Gaviro, S., Ricci-Tersenghi, F., Ruiz-Lorenzo, J. J., Schifano, S. F., Seoane, B., and Tarancon, A.

Subjects

*FREE energy (Thermodynamics), *ZEEMAN effect

Abstract

We first reproduce on the Janus and Janus II computers a milestone experiment that measures the spin-glass coherence length through the lowering of free-energy barriers induced by the Zeeman effect. Secondly, we determine the scaling behavior that allows a quantitative analysis of a new experiment reported in the companion Letter [S. Guchhait and R. Orbach, Phys. Rev. Lett. 118, 157203 (2017)]. The value of the coherence length estimated through the analysis of microscopic correlation functions turns out to be quantitatively consistent with its measurement through macroscopic response functions. Further, nonlinear susceptibilities, recently measured in glass-forming liquids, scale as powers of the same microscopic length. [ABSTRACT FROM AUTHOR]

Published

2017

44. Dynamical transition in the D=3 Edwards-Anderson spin glass in an external magnetic field.

Author

Baity-Jesi M, Baños RA, Cruz A, Fernandez LA, Gil-Narvion JM, Gordillo-Guerrero A, Iñiguez D, Maiorano A, Mantovani F, Marinari E, Martin-Mayor V, Monforte-Garcia J, Muñoz Sudupe A, Navarro D, Parisi G, Perez-Gaviro S, Pivanti M, Ricci-Tersenghi F, Ruiz-Lorenzo JJ, Schifano SF, Seoane B, Tarancon A, Tripiccione R, and Yllanes D

Abstract

We study the off-equilibrium dynamics of the three-dimensional Ising spin glass in the presence of an external magnetic field. We have performed simulations both at fixed temperature and with an annealing protocol. Thanks to the Janus special-purpose computer, based on field-programmable gate array (FPGAs), we have been able to reach times equivalent to 0.01 s in experiments. We have studied the system relaxation both for high and for low temperatures, clearly identifying a dynamical transition point. This dynamical temperature is strictly positive and depends on the external applied magnetic field. We discuss different possibilities for the underlying physics, which include a thermodynamical spin-glass transition, a mode-coupling crossover, or an interpretation reminiscent of the random first-order picture of structural glasses.

Published

2014

45. Static versus dynamic heterogeneities in the D = 3 Edwards-Anderson-Ising spin glass.

Author

Alvarez Baños R, Cruz A, Fernandez LA, Gil-Narvion JM, Gordillo-Guerrero A, Guidetti M, Maiorano A, Mantovani F, Marinari E, Martin-Mayor V, Monforte-Garcia J, Muñoz Sudupe A, Navarro D, Parisi G, Perez-Gaviro S, Ruiz-Lorenzo JJ, Schifano SF, Seoane B, Tarancon A, Tripiccione R, and Yllanes D

Abstract

We numerically study the aging properties of the dynamical heterogeneities in the Ising spin glass. We find that a phase transition takes place during the aging process. Statics-dynamics correspondence implies that systems of finite size in equilibrium have static heterogeneities that obey finite-size scaling, thus signaling an analogous phase transition in the thermodynamical limit. We compute the critical exponents and the transition point in the equilibrium setting, and use them to show that aging in dynamic heterogeneities can be described by a finite-time scaling ansatz, with potential implications for experimental work.

Published

2010