Professor Juan P. Garrahan

 

Publications

2024

  1. 225.The quantum Newman-Moore model in a longitudinal field
    K. Sfairopoulos and J.P. Garrahan
    arXiv:2409.09235.

  2. 224.Efficient post-selection in light-cone correlations of monitored quantum circuits
    J. Li, R.L. Jack, B. Bertini and J.P. Garrahan
    arXiv:2408.13096.

  3. 223.Discrete generative diffusion models without stochastic differential equations: a tensor network approach
    L. Causer, G.M. Rotskoff and J.P. Garrahan
    arXiv:2407.11133.

  4. 222.Bounds on Fluctuations of First Passage Times for Counting Observables in Classical and Quantum Markov Processes
    G. Bakewell-Smith, F. Girotti, M. Guta, J.P. Garrahan
    arXiv:2405.09669.

  5. 221.Dynamical heterogeneity and large deviations in the open quantum East glass model from tensor networks
    L. Causer, M.C. Bañuls and J.P. Garrahan
    arXiv:2403.03986.

  6. 220.Exact results on the dynamics of the stochastic Floquet-East model
    C De Fazio, J.P. Garrahan and K. Klobas
    J. Phys. A 57, 505002 (2004).

  7. 219.Nonthermal eigenstates and slow relaxation in quantum Fredkin spin chains
    L. Causer, M.C. Bañuls and J.P. Garrahan
    Phys.Rev. B 110, 134322 (2024).

  8. 218.Exact pretransition effects in kinetically constrained circuits: Dynamical fluctuations in the Floquet-East model
    K. Klobas, C. De Fazio and J.P. Garrahan
    Phys. Rev. E 110, L022101 (2024) .

  9. 217.Exact quench dynamics of the Floquet quantum East model at the deterministic point
    B. Bertini, C. De Fazio, J.P. Garrahan and K. Klobas
    Phys. Rev. Lett. 132, 120402 (2024) .

  10. 216.Rejection-free quantum Monte Carlo in continuous time from transition path sampling
    L. Causer, K. Sfairopoulos, J.F. Mair and J.P. Garrahan
    Phys. Rev. B 109, 024307 (2024).

  11. 215.Topological phases in the dynamics of the simple exclusion process
    J.P. Garrahan and F. Pollmann
    Phys. Rev. E 109, L032105 (2024).

  12. 214.Universal and nonuniversal probability laws in Markovian open quantum dynamics subject to generalized reset processes
    F. Carollo, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 109, 044129 (2024).

  13. 213.Combining Reinforcement Learning and Tensor Networks, with an Application to Dynamical Large Deviations
    E. Gillman, D.C. Rose and J.P. Garrahan
    Phys. Rev. Lett. 132, 197301 (2024).


2023

  1. 212.Cellular automata in d dimensions and ground states of spin models in (d+1) dimensions
    K. Sfairopoulos, L. Causer, J.F. Mair and J.P. Garrahan
    arXiv:2309.08059.

  2. 211.Minibatch training of neural network ensembles via trajectory sampling
    J.F. Mair, L. Causer and J.P. Garrahan
    arXiv:2306.13442.

  3. 210.Quantum reaction-limited reaction-diffusion dynamics of annihilation processes
    G. Perfetto, F. Carollo, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. E 108, 064104 (2023).

  4. 209.Slow heterogeneous relaxation due to constraints in dual XXZ models
    L. Zadnik and J.P. Garrahan
    Phys. Rev. B 108, L100304 (2023).

  5. 208.Reaction-limited quantum reaction-diffusion dynamics
    G. Perfetto, F. Carollo, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 130, 210402 (2023).

  6. 207.Optimal sampling of dynamical large deviations in two dimensions via tensor networks
    L. Causer, M.C. Bañuls and J.P. Garrahan
    Phys. Rev. Lett. 130, 147401 (2023).

  7. 206.Concentration Inequalities for Output Statistics of Quantum Markov Processes
    F. Girotti, J.P. Garrahan and M. Guta
    Ann. Henri Poincare (2023).

  8. 205.Boundary conditions dependence of the phase transition in the quantum Newman-Moore model
    K. Sfairopoulos, L. Causer, J.F. Mair and J.P. Garrahan
    Phys. Rev. B 108, 174107 (2023).

  9. 204.Inverse thermodynamic uncertainty relations: general upper bounds on the fluctuations of trajectory observables
    G. Bakewell-Smith, F. Girotti, M. Guta and J.P. Garrahan
    Phys. Rev. Lett. 131, 197101 (2023).

  10. 203.Stochastic strong zero modes and their dynamical manifestations
    K. Klobas, P. Fendley and J.P. Garrahan
    Phys. Rev. E 107, L042104 (2023).

  11. 202.Slow dynamics and non-ergodicity of the bosonic quantum East model in the semiclassical limit
    A. Geissler and J.P. Garrahan
    Phys. Rev. E 108, 034207 (2023).

  12. 201.Trajectory phase transitions in non-interacting systems: all-to-all dynamics and the random energy model
    J.P. Garrahan, C. Manai and S. Warzel
    Phil. Trans. R. Soc. A 381, 20210415 (2023).

  13. 200.Generalized Continuous Maxwell Demons
    J.P. Garrahan and F. Ritort
    Phys. Rev. E 107, 034101 (2023).


2022

  1. 199.Training neural network ensembles via trajectory sampling
    J.F. Mair, D.C. Rose and J.P. Garrahan
    arXiv:2209.11116.

  2. 198.Anderson and many-body localization in the presence of spatially correlated classical noise
    S. Marcantoni, F. Carollo, F.M. Gambetta, I. Lesanovsky, U. Schneider and J.P. Garrahan
    Phys. Rev. B 106, 134211 (2022).

  3. 197.Slow dynamics and large deviations in classical stochastic Fredkin chains
    L. Causer, J.P. Garrahan and A. Lamacraft
    Phys. Rev. E 106, 014128 (2022).

  4. 196.Finite time large deviations via matrix product states
    L. Causer, M.C. Bañuls and J.P. Garrahan
    Phys. Rev. Lett. 128, 090605 (2022).

  5. 195.Exact solution of the Rule 150 reversible cellular automaton
    J.W.P. Wilkinson, T. Prosen and J.P. Garrahan
    Phys. Rev. E 105, 034124 (2022).

  6. 194.Hierarchical classical metastability in an open quantum East model
    K. Macieszczak, D.C. Rose, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 105, 044121 (2022).

  7. 193.Random matrix theory for quantum and classical metastability in local Liouvillians
    J.L. Li, D.C. Rose, J.P. Garrahan and D.J. Luitz
    Phys. Rev. B 105, L180201 (2022).


2021

  1. 192.Topographic control of order in quasi-2D granular phase transitions
    J. G. Downs, N. D. Smith, K. K. Mandadapu, J.P. Garrahan and M.I. Smith
    Phys. Rev. Lett. 127, 268002 (2021).
    Article featured in: Physics.

  2. 191.Reinforcement learning of rare diffusive dynamics
    A. Das, D.C. Rose, J.P. Garrahan and D.T. Limmer
    J. Chem. Phys. 155, 134105 (2021).

  3. 190.A solvable class of non-Markovian quantum multipartite dynamics
    A.A. Budini and J.P. Garrahan
    Phys. Rev. A 104, 032206 (2021).

  4. 189.Symmetry-induced fluctuation relations in open quantum systems
    S. Marcantoni, C. Perez-Espigares and J.P. Garrahan
    Phys. Rev. E 104, 014108 (2021).

  5. 188.Optimal sampling of dynamical large deviations via matrix product states
    L. Causer, M.C. Bañuls and J.P. Garrahan
    Phys. Rev. E 103, 062144 (2021).

  6. 187.Large deviations at level 2.5 for Markovian open quantum systems: quantum jumps and quantum state diffusion
    F. Carollo, J.P. Garrahan and R.L. Jack
    J. Stat. Phys. 184, 13 (2021).

  7. 186.A reinforcement learning approach to rare trajectory sampling
    D.C. Rose, J.F. Mair and J.P. Garrahan
    New J. Phys. 23, 013013 (2021).

  8. 185.Theory of classical metastability in open quantum systems
    K. Macieszczak, D.C. Rose, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. Research 3, 033047 (2021).


2020

  1. 184.Dynamics and large deviation transitions of the XOR-Fredrickson-Andersen kinetically constrained model
    L. Causer, I. Lesanovsky, M.C. Bañuls and J.P. Garrahan
    Phys. Rev. E 102, 052132 (2020).

  2. 183.Exact solution of the Floquet-PXP cellular automaton
    J.W.P. Wilkinson, K. Klobas, T. Prosen and J.P. Garrahan
    Phys. Rev. E 102, 062107 (2020).

  3. 182.Symmetry-induced fluctuation relations for dynamical observables irrespective of their behaviour under time-reversal
    S. Marcantoni, C. Perez-Espigares and J.P. Garrahan
    Phys. Rev. E 101, 062142 (2020).

  4. 181.A Tensor Network Approach to Finite Markov Decision Processes
    E. Gillman, D.C. Rose and J.P. Garrahan
    arXiv:2002.05185.

  5. 180.A Deep Learning Functional Estimator of Optimal Dynamics for Sampling Large Deviations
    T.H.E. Oakes, A. Moss and J.P. Garrahan
    Mach. Learn.: Sci. Technol. 1, 035004 (2020).

  6. 179.Matrix product state of multi-time correlations
    K. Klobas, M. Vanicat, J.P. Garrahan and T. Prosen
    J. Phys. A 53, 335001 (2020).

  7. 178.A non-equilibrium quantum many-body Rydberg atom engine
    F. Carollo, F.M. Gambetta, K. Brandner, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 124, 170602 (2020).

  8. 177.Trajectory phase transitions in non-interacting spin systems
    L.M. Vasiloiu, T.H.E. Oakes, F. Carollo and J.P. Garrahan
    Phys. Rev. E 101, 042115 (2020).

  9. 176.Quantum East model: localization, non-thermal eigenstates and slow dynamics
    N. Pancotti, G. Giudice, J.I. Cirac, J.P. Garrahan and M.C. Bañuls
    Phys. Rev. X 10, 021051 (2020).


2019

  1. 175.Classical Stochastic Discrete Time Crystals
    F.M. Gambetta, F. Carollo, A. Lazarides, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 100, 060105(R).

  2. 174.Theory for Glassy Behavior of Supercooled Liquid Mixtures
    S. Katira, J.P. Garrahan and K.K. Mandadapu
    Phys. Rev. Lett. 123, 100602 (2019).

  3. 173.Using matrix product states to study the dynamical large deviations of kinetically constrained models
    M.C. Bañuls and J.P. Garrahan
    Phys. Rev. Lett. 123, 200601 (2019).

  4. 172.Strong zero modes in a class of generalised Ising spin ladders with plaquette interactions
    L.M. Vasiloiu, F. Carollo, M. Marcuzzi and J.P. Garrahan
    Phys. Rev. B 100, 024309 (2019).

  5. 171.Accelerated relaxation and suppressed dynamic heterogeneity in a kinetically constrained (East) model with swaps
    R. Gutierrez, J.P. Garrahan and R.L. Jack
    J. Stat. Mech. 094006  (2019).

  6. 170.Exact large deviation statistics and trajectory phase transition of a deterministic boundary driven cellular automaton
    B. Buca, J.P. Garrahan, T. Prosen and M. Vanicat
    Phys. Rev. E 100, 020103(R) (2019).

  7. 169.Localization in spin chains with facilitation constraints and disordered interactions
    M. Ostmann, M. Marcuzzi, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. A 99, 060101(R) (2019).

  8. 168.Ordering, flexibility and frustration in arrays of porphyrin nanorings
    A. Summerfield, M. Baldoni, D.V. Kondratuk. H.L. Anderson, S. Whitelam, J.P. Garrahan, E. Belsey and P.H. Beton
    Nature Communications 10, 2932 (2019).
    (Highlighted in Nature Physics Reviews.)

  9. 167.Unravelling the large deviation statistics of Markovian open quantum systems
    F. Carollo, R.L. Jack and J.P. Garrahan
    Phys. Rev. Lett. 122, 130605 (2019).

  10. 166.Discrete time crystals in the absence of manifest symmetries or disorder in open quantum systems
    F.M. Gambetta, F. Carollo, M. Marcuzzi, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 122, 015701 (2019).

  11. 165.Physical swap dynamics, shortcuts to relaxation and entropy production in dissipative Rydberg gases
    R. Gutierrez, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. E 100, 012110 (2019).

  12. 164.Non-equilibrium absorbing state phase transitions in discrete-time quantum cellular automaton dynamics on spin lattices
    I. Lesanovsky, K. Macieszczak and J.P. Garrahan
    Quantum Sci. Technol. 4 02LT02 (2019).

  13. 163.Quantum accelerated approach to the thermal state of classical spin systems with applications to pattern-retrieval in the Hopfield neural network
    E. Fiorelli, P. Rotondo, M. Marcuzzi, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. A 99, 032126 (2019).

  14. 162.Coherence, entanglement and quantumness in closed and open systems with conserved charge, with an application to many-body localisation
    K. Macieszczak, E. Levi, T. Macri, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. A 99, 052354 (2019).


2018

  1. 161.Dynamical criticality in driven systems: non-perturbative results, microscopic origin and direct observation
    C. Pérez-Espigares, F. Carollo, J.P. Garrahan and P.I. Hurtado
    Phys. Rev. E 98, 060102(R) (2018).

  2. 160.Catching and reversing quantum jumps and thermodynamics of quantum trajectories
    J.P. Garrahan and M. Guta
    Phys. Rev. A 98, 052137 (2018).

  3. 159.Spectral properties of simple classical and quantum reset processes
    D.C. Rose, H. Touchette, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 98, 022129 (2018).

  4. 158.Enhancing correlation times for edge spins through dissipation
    L.M. Vasiloiu, F. Carollo and J.P. Garrahan
    Phys. Rev. B 98, 094308 (2018).

  5. 157.Glassy dynamics due to a trajectory phase transition in dissipative Rydberg gases
    C. Pérez-Espigares, I. Lesanovsky, J.P. Garrahan and R. Gutiérrez
    Phys. Rev. A 98, 021804(R) (2018). (Editors’ Suggestion)

  6. 156.Unified thermodynamic uncertainty relations in linear response
    K. Macieszczak, K. Brandner and J.P. Garrahan
    Phys. Rev. Lett. 121, 130601 (2018).

  7. 155.Phases of quantum dimers from ensembles of classical stochastic trajectories
    T. Oakes, S. Powell, C. Castelnovo, A. Lamacraft and J.P. Garrahan
    Phys. Rev. B 98, 064302 (2018).

  8. 154.Singularities in large deviations of work in quantum quenches
    P. Rotondo, J. Minar, J.P. Garrahan, I. Lesanovsky and M. Marcuzzi
    Phys. Rev. B 98, 184303 (2018).

  9. 153.Current fluctuations in boundary-driven quantum spin chains
    F. Carollo, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. B 98, 094301 (2018).

  10. 152.Solvation in Space–Time: Pre-transition Effects in Trajectory Space
    S. Katira, J.P. Garrahan and K.K. Mandadapu
    Phys. Rev. Lett. 120, 260602 (2018).

  11. 151.Rare behavior of growth processes via umbrella sampling of trajectories
    K. Klymko, P.L. Geissler, J.P. Garrahan and S. Whitelam
    Phys. Rev. E 97, 032123 (2018).

  12. 150.Aspects of non-equilibrium in classical and quantum systems: slow relaxation and glasses, dynamical large deviations, quantum non-ergodicity, and open quantum dynamics
    J.P. Garrahan
    Physica A 504, 130 (2018).

  13. 149.Open quantum generalisation of Hopfield neural networks
    P. Rotondo, M. Marcuzzi, J.P. Garrahan, I. Lesanovsky and M. Muller
    J. Phys. A 51, 115301 (2018).

  14. 148.Making rare events typical in Markovian open quantum systems
    F. Carollo, J.P. Garrahan, I. Lesanovsky and C. Pérez-Espigares
    Phys. Rev. A 98, 010103(R) (2018).

  15. 147.Quantum slow relaxation and metastability due to dynamical constraints
    Z. Lan, M. van Horssen, S. Powell and J.P. Garrahan
    Phys. Rev. Lett. 121, 040603 (2018).


2017

  1. 146.Metastable decoherence-free subspaces and electromagnetically induced transparency in interacting many-body systems
    K. Macieszczak, Y.L. Zhou, S. Hofferberth, J.P. Garrahan, W. Li and I. Lesanovsky
    Phys. Rev. A 96, 043860 (2017).

  2. 145.Editorial: Virtual Issue in Memory of David Chandler
    J.P. Garrahan, P.L. Geissler and D.T. Limmer
    J. Phys. Chem. B 121, 5309 (2017).

  3. 144.Study of the upper-critical dimension of the East model through the breakdown of the Stokes-Einstein relation
    S. Kim, D.G. Thorpe, J.P. Garrahan, D. Chandler and Y. Jung
    J. Chem. Phys. 147, 084504 (2017).

  4. 143.Phase transitions in electron spin resonance under continuous microwave driving
    A. Karabanov, D.C. Rose, W. Köckenberger, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 119, 150402 (2017).

  5. 142.Fluctuating hydrodynamics, current fluctuations and hyperuniformity in boundary-driven open quantum chains
    F. Carollo, J.P. Garrahan, I. Lesanovsky and C. Pérez-Espigares
    Phys. Rev. E 96, 052118 (2017).

  6. 141.Simple bounds on fluctuations and uncertainty relations for first-passage times of counting observables
    J.P. Garrahan
    Phys. Rev. E 95, 032134 (2017).

  7. 140.Role of interactions in a dissipative many-body localized system
    B. Everest, I. Lesanovsky, J.P. Garrahan and E. Levi
    Phys. Rev. B 95, 024310 (2017).

  8. 139.Experimental Determination of Dynamical Lee-Yang Zeros
    K. Brandner, V.F. Maisi, J.P. Pekola, J.P. Garrahan and C. Flindt
    Phys. Rev. Lett. 118, 180601 (2017).

  9. 138.Similarity of ensembles of trajectories of reversible and irreversible growth processes
    K. Klymko, J.P. Garrahan and S. Whitelam
    Phys. Rev. E 96, 042126 (2017).


2016

  1. 137.Metastability in an open quantum Ising model
    D.C. Rose, K. Macieszczak, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 94, 052132 (2016).

  2. 136.Front propagation versus bulk relaxation in the annealing dynamics of a kinetically constrained model of ultrastable glasses
    R. Gutierrez and J.P. Garrahan
    J. Stat. Mech. 074005 (2016).

  3. 135.Applicability of dynamic facilitation theory to binary hard disk systems
    M. Isobe, A.S. Keys, D. Chandler and J.P. Garrahan
    Phys. Rev. Lett. 117, 145701 (2016).

  4. 134.Non-equilibrium fluctuations and metastability in the dynamics of dissipative multi-component Rydberg gases
    R. Gutierrez, J.P. Garrahan and I. Lesanovsky
    New J. Phys. 18, 093054 (2016).

  5. 133.Classical stochastic dynamics and continuous matrix product states: gauge transformations, conditioned and driven processes and equivalence of trajectory ensembles
    J.P. Garrahan
    J. Stat. Mech. 073208 (2016).

  6. 132.Emergent kinetic constraints in open quantum systems
    B. Everest, M. Marcuzzi, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. E 94, 052108 (2016).

  7. 131.Towards a theory of metastability in open quantum dynamics
    K. Macieszczak, M. Guta, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. Lett. 116, 240404 (2016).

  8. 130.Robustness of many-body localization in the presence of dissipation
    E. Levi, M. Heyl, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. Lett. 116, 237203 (2016).

  9. 129.Phase transition for quenched coupled replicas in a plaquette spin model of glasses
    R.L. Jack and J.P. Garrahan
    Phys. Rev. Lett. 116, 055702 (2016).

  10. 128.Dynamical phase transitions as a resource for quantum enhanced metrology
    K. Macieszczak, M. Guta, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. A 93, 022103 (2016).

  11. 127.Emergence of cooperative dynamics in fully packed classical dimers
    T. Oakes, J.P. Garrahan and S. Powell
    Phys. Rev. E 93, 032129 (2016).

  12. 126.Experimental observation of controllable kinetic constraints in a cold atomic gas
    M.M. Valado, C. Simonelli, M. D. Hoogerland, I. Lesanovsky, J.P. Garrahan, E. Arimondo, D. Ciampini, O. Morsch
    Phys. Rev. A 93, 040701(R) (2016). (Editors’ Suggestion)

  13. 125.Signatures of many-body localisation in a system without disorder and the relation to a glass transition
    J.M. Hickey, S. Genway and J.P. Garrahan
    J. Stat. Mech. 054047 (2016).


2015

  1. 124.Self-similar non-equilibrium dynamics of a many-body system with power-law interactions
    R. Gutiérrez, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. E 92, 062144 (2015).

  2. 123.Dynamics of many-body localisation in a translation invariant quantum glass model
    M. van Horssen, E. Levi and J.P. Garrahan
    Phys. Rev. B 92, 100305(R) (2015). (Editors’ Suggestion)

  3. 122.Non-equilibrium universality in the dynamics of dissipative cold atomic gases
    M. Marcuzzi, E. Levi, W. Li, J.P. Garrahan, B. Olmos and I. Lesanovsky
    New J. Phys. 17, 072003 (2015).
    (Fast Track Communication)

  4. 121.Overlap and activity glass transitions in plaquette spin models with hierarchical dynamics
    R.M. Turner, R.L. Jack and J.P. Garrahan
    Phys. Rev. E 92, 022115 (2015).

  5. 120.Equivalence of matrix product ensembles of trajectories in open quantum systems
    J. Kiukas, M. Guta, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 92, 012132 (2015).

  6. 119.Crystalline structures and frustration in a two-component Rydberg gas
    E. Levi, J. Minar, J.P. Garrahan and I. Lesanovsky
    New J. Phys. 17, 123017 (2015).

  7. 118.Emergent rhombus tilings from molecular interactions with M-fold rotational symmetry
    S. Whitelam, I. Tamblyn, J.P. Garrahan and P.H. Beton
    Phys. Rev. Lett. 114, 115702 (2015).
    (PRL cover article.)

  8. 117.Dynamical symmetries and crossovers in a three-spin system with collective dissipation
    S. Pigeon, A. Xuereb, I. Lesanovsky, J.P. Garrahan, G. De Chiara and M. Paternostro
    New J. Phys. 17, 015010 (2015).

  9. 116.Open quantum reaction-diffusion dynamics: absorbing states and relaxation
    M. van Horssen and J.P. Garrahan
    Phys. Rev. E 91, 032132 (2015).

  10. 115.Using the s-Ensemble to Probe Glasses Formed by Cooling and Aging
    A.S. Keys, D. Chandler and J.P. Garrahan
    Phys. Rev. E 92, 022304 (2015).

  11. 114.Generic map from non-Lindblad to Lindblad master equations
    M.R. Hush, I. Lesanovksy and J.P. Garrahan
    Phys. Rev. A 91, 032113 (2015).


2014

  1. 113.Intermittency and dynamical Lee-Yang zeros of open quantum systems
    J.M. Hickey, C. Flindt and J.P. Garrahan
    Phys. Rev. E 90, 062128 (2014).

  2. 112.Out-of-equilibrium evolution of kinetically constrained many-body quantum systems under purely dissipative dynamics
    B. Olmos, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 90, 042147 (2014).

  3. 111.Comment on "Abrupt transition in the structural formation of interconnected networks", F. Radicchi and A. Arenas, Nature Phys. 9, 717 (2013)
    J.P. Garrahan and I. Lesanovsky
    arXiv:1406.4706.

  4. 110.Spatial Complementarity and the Coexistence of Species
    J. Velázquez, J.P. Garrahan and M.P. Eichhorn
    PloS ONE 9, 114979 (2014).

  5. 109.Universal non-equilibrium properties of dissipative Rydberg gases
    M. Marcuzzi, E. Levi, S. Diehl, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 113, 210401 (2014).

  6. 108.Meta-work and the analogous Jarzynski relation in ensembles of dynamical trajectories
    R.M. Turner, T. Speck and J.P. Garrahan
    J. Stat. Mech. P09017 (2014).

  7. 107.Cumulants of time-integrated observables of closed quantum systems and PT-symmetry, with an application to the quantum Ising chain
    J.M. Hickey, E. Levi and J.P. Garrahan
    Phys. Rev. B 90, 094301 (2014).

  8. 106.Out-of-equilibrium structures in strongly interacting Rydberg gases with dissipation
    I. Lesanovsky and J.P. Garrahan
    Phys. Rev. A 90, 011603(R) (2014).

  9. 105.Localisation in space and time in disordered-lattice open quantum dynamics
    S. Genway, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. E 89, 042129 (2014).

  10. 104.Fluctuating observation time ensembles in the thermodynamics of trajectories
    A.A. Budini, R.M. Turner, J.P. Garrahan
    J. Stat. Mech. P03012 (2014).

  11. 103.Common physical framework explains phase behavior and dynamics of atomic, molecular and polymeric network-formers
    S. Whitelam, I. Tamblyn, T.K. Haxton, M.B. Wieland, N.R. Champness, J.P. Garrahan and P.H. Beton
    Phys. Rev. X 4, 011044 (2014).

  12. 102.Dynamical phase transitions, time-integrated observables and geometry of states
    J.M. Hickey, S. Genway and J.P. Garrahan
    Phys. Rev. B 89, 054301 (2014).

  13. 101.Transition in coupled replicas may not imply a finite temperature ideal glass transition in glass forming systems
    J.P. Garrahan
    Phys. Rev. E  89, 030301(R) (2014). (Editors’ Suggestion)

  14. 100.Rare-event trajectory ensemble analysis reveals metastable dynamical phases in lattice proteins
    A.S.J.S. Mey, P.L. Geissler and J.P. Garrahan
    Phys. Rev. E 89, 032109 (2014).

  15. 99.Trajectory phases of a quantum dot model
    S. Genway, J.M. Hickey, J.P Garrahan and A.D. Armour
    J. Phys. A 47, 505001 (2014).


2013

  1. 98.Comment on "Is there a breakdown of the Stokes-Einstein relation in Kinetically Constrained Models at low temperature?" by O. Blondel and C. Toninelli, arXiv:1307.1651
    Y.J. Jung, S. Kim, J.P. Garrahan and D. Chandler
    arXiv:1309.5894.

  2. 97.Kinetic constraints, hierarchical relaxation and onset of glassiness in strongly interacting and dissipative Rydberg gases
    I. Lesanovsky and J.P. Garrahan
    Phys. Rev. Lett. 111, 215305 (2013).

  3. 96.Trajectory phase transitions and dynamical Lee-Yang zeros of the Glauber-Ising chain
    J.M. Hickey, C. Flindt and J.P. Garrahan
    Phys. Rev. E 88, 012119 (2013).

  4. 95.Time-integrated observables as order parameters for dynamical phase transitions in closed quantum systems
    J.M. Hickey, S. Genway, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. B 87, 184303 (2013).

  5. 94.Perspective: The Glass Transition
    G. Biroli and J.P. Garrahan
    J. Chem. Phys. 138, 12A301 (2013).
    Article featured in: JCP Spotlight (audio of interview by AIP here).

  6. 93.Characterization of dynamical phase transitions in quantum jump trajectories beyond the properties of the stationary state
    I. Lesanovsky, M. van Horssen, M. Guta and J.P. Garrahan
    Phys. Rev. Lett. 110, 150401 (2013).

  7. 92.Calorimetric glass transition explained by hierarchical dynamic facilitation
    A.S. Keys, J.P. Garrahan and D. Chandler
    Proc. Natl. Acad. Sci. USA 110, 4482 (2013).

  8. 91.Trajectory phase transitions, Lee-Yang zeros, and high-order cumulants in full counting statistics
    C. Flindt and J.P. Garrahan
    Phys. Rev. Lett. 110, 050601 (2013).

  9. 90.Equilibration of quantum hard rods in one dimension
    S. Ji, C. Ates, J.P. Garrahan and I. Lesanovsky
    J. Stat. Mech. P02005 (2013).


2012

  1. 89.Thermodynamics of Quadrature Trajectories in Open Quantum Systems
    J.M. Hickey, S. Genway, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. A 86, 063824 (2012).

  2. 88.Facilitated spin models of dissipative quantum glasses
    B. Olmos, I. Lesanovsky and J.P. Garrahan
    Phys. Rev. Lett. 109, 020403 (2012).

  3. 87.Phase Transitions in Trajectories of a Superconducting Single-Electron Transistor Coupled to a Resonator
    S. Genway, J.P. Garrahan, I. Lesanovsky and A.D. Armour
    Phys. Rev. E 85, 051122 (2012).

  4. 86.Inactive dynamical phase of a symmetric exclusion process on a ring
    V. Lecomte, J.P. Garrahan and F. van Wijland
    J. Phys. A 45, 175001 (2012).

  5. 85.Dynamical phases and intermittency of the dissipative quantum Ising model
    C. Ates, B. Olmos, J.P. Garrahan and I. Lesanovsky
    Phys. Rev. A 85, 043620 (2012).

  6. 84.Thermalisation of a closed quantum system: From many-body dynamics to a Fokker-Planck equation
    C. Ates, J. P. Garrahan, I. Lesanovsky
    Phys. Rev. Lett. 108, 110603 (2012).

  7. 83.Broken symmetry and the variation of critical properties in the phase behaviour of molecular rhombus tilings
    A. Stannard, J.C. Russell, M.O. Blunt, C. Salesiotis, M. Giménez-López, N. Taleb, M. Schroder, N.R. Champness,
    J.P. Garrahan and P.H. Beton
    Nature Chemistry 4,112 (2012).
    Article featured in: Nature Materials.

  8. 82.Random and ordered phases of off-lattice rhombus tiles
    S. Whitelam, I. Tamblyn, P.H. Beton and J.P. Garrahan
    Phys. Rev. Lett. 108, 035702 (2012).


2011

  1. 81.Thermodynamics of trajectories of the one-dimensional Ising model
    E.S. Loscar, A.S.J.S. Mey and J.P. Garrahan
    J. Stat. Mech. P12011 (2011).

  2. 80.Preparation and relaxation of very stable glassy states of a simulated liquid
    R.L. Jack, L.O. Hedges, J.P. Garrahan and D. Chandler
    Phys. Rev. Lett. 107, 275702 (2011).

  3. 79.Excitations are localized and relaxation is hierarchical in glass-forming liquids
    A.S. Keys, L.O. Hedges, J.P. Garrahan, S.C. Glotzer and D. Chandler
    Phys. Rev. X 1, 021013 (2011).

  4. 78.Dynamic heterogeneity comes to life
    J.P. Garrahan
    Proc. Natl. Acad. Sci. USA 108, 4701 (2011) (Commentary).

  5. 77.Quantum trajectory phase transitions in the micromaser
    J.P. Garrahan, A.D. Armour and I. Lesanovsky
    Phys. Rev. E 84, 021115 (2011).

  6. 76.Kinetically Constrained Models,
    J.P. Garrahan, P. Sollich and C. Toninelli
    (chapter in Dynamical heterogeneities in glasses, colloids, and granular media, OUP, 2011)
    arXiv:1009.6113.

  7. 75.Space-time Phase Transitions in Driven Kinetically Constrained Lattice Models
    T. Speck and J.P. Garrahan
    Eur. Phys. J. B 79, 1 (2011).

  8. 74.Comparison of implicit solvent models and force fields in molecular dynamics simulations of the PB1 domain
    M. Pu, J.P. Garrahan and J.D. Hirst
    Chem. Phys. Lett. 515, 283 (2011).


2010

  1. 73.Corresponding States of Structural Glass Formers. II
    Y.S. Elmatad, D. Chandler and J.P. Garrahan
    J. Phys. Chem. B 114, 17113 (2010).

  2. 72.Thermalization in a coherently driven ensemble of two-level systems
    I. Lesanovsky, B. Olmos and J.P. Garrahan
    Phys. Rev. Lett. 105, 100603 (2010).

  3. 71.Entropically-stabilised growth of a two-dimensional random tiling
    A. Stannard, M.O. Blunt, P.H. Beton and J.P. Garrahan
    Phys. Rev. E 82, 041109 (2010).

  4. 70.Finite-temperature critical point of a glass transition
    Y.S. Elmatad, R.L. Jack, J.P. Garrahan and D. Chandler
    Proc. Natl. Acad. Sci. USA 107, 29 (2010).

  5. 69.Thermodynamics of Quantum Jump Trajectories
    J.P. Garrahan and I. Lesanovsky
    Phys. Rev. Lett. 104, 160601 (2010).
    Accompanying APS Physics Viewpoint: Quantum trajectories face a transition, D. Andrieux.

  6. 68.Dynamics on the Way to Forming Glass: Bubbles in Space-time
    D. Chandler and J.P. Garrahan
    Annu. Rev. Phys. Chem. 61, 191 (2010).

  7. 67.Metastable states and space-time phase transitions in a spin-glass model
    R.L. Jack and J.P. Garrahan
    Phys. Rev. E 81, 011111 (2010).


2009 & 2008

  1. 66.Molecular random tilings as glasses
    J.P. Garrahan, A. Stannard, M.O. Blunt and P.H. Beton
    Proc. Natl. Acad. Sci. USA 106, 15209 (2009).

  2. 65.Dynamic order-disorder in atomistic models of structural glass formers
    L.O. Hedges, R.L. Jack, J.P. Garrahan and D. Chandler
    Science 323, 1309 (2009).
    (Supporting online material here.)
    Article featured in: Science Express.

  3. 64.Corresponding States of Structural Glass Formers
    Y.S. Elmatad, D. Chandler, J.P. Garrahan
    J. Phys. Chem. B. 113, 5563 (2009).
    JPCB Cover article.

  4. 63.First-order dynamical phase transition in models of glasses: an approach based on ensembles of histories
    J.P. Garrahan, R.L. Jack, V. Lecomte, E. Pitard, K. van Duijvendijk, F. van Wijland
    J. Phys. A 42, 075007 (2009).

  5. 62.Relationship between vibrations and dynamical heterogeneity in a model glass former: extended soft modes but local relaxation
    D.J. Ashton and J.P. Garrahan
    Eur. Phys. J. E 30, 303 (2009).

  6. 61.The Limited Role of Nonnative Contacts in the Folding Pathways of a Lattice Protein
    B. Gin, J.P. Garrahan and P.L. Geissler
    J. Mol. Biol. 392, 1303 (2009).

  7. 60.Harmful Mating Tactics in Hermaphrodites
    T. Preece, Y. Mao, J.P. Garrahan and A. Davison
    Am. Nat. 173, 632 (2009).

  8. 59.Random Tiling and Topological Defects in a Two-Dimensional Molecular Network
    M.O. Blunt, J. Russell, M. Gimenez-Lopez, J.P. Garrahan, X. Lin, M. Schroder, N.R. Champness and P.H. Beton
    Science 322, 1077 (2008).
    (Supporting online material here.)
    Article featured in: Nature Chemistry, Nature Nanotechnology, AMS Math in the Media.

  9. 58.Negative differential mobility of weakly driven particles in models of glass formers
    R.L. Jack, D. Kelsey, J.P. Garrahan, D. Chandler
    Phys. Rev. E 78, 011506 (2008).

  10. 57.Dynamic facilitation explains democratic particle motion of metabasin transitions
    L.O. Hedges and J.P. Garrahan
    J. Phys. A41, 3244006 (2008).


2007 & 2006

  1. 56.De-coupling of Exchange and Persistence Times in Atomistic Models of Glass Formers
    L.O. Hedges, L. Maibaum, D. Chandler and J.P. Garrahan
    J. Chem. Phys. 127, 211101 (2007).

  2. 55.Non-equilibrium dynamics of spin facilitated glass models
    S. Leonard, P. Mayer, P. Sollich, L. Berthier, J.P. Garrahan
    J. Stat. Mech. P07017, (2007).

  3. 54.Dynamic first-order phase transition in kinetically constrained models of glasses
    J.P. Garrahan, R.L. Jack, V. Lecomte, E. Pitard, K. van Duijvendijk, F. van Wijland
    Phys. Rev. Lett. 98, 195702 (2007).

  4. 53.Dynamic propensity in a kinetically constrained lattice gas
    L.O. Hedges and J.P. Garrahan
    J. Phys. Condens. Matter 19, 205124 (2007).

  5. 52.Fluctuation-dissipation relations in plaquette spin systems with multi-stage relaxation
    R.L. Jack, L. Berthier and J.P. Garrahan
    J. Stat. Mech. P12005 (2006).

  6. 51.Lengthscale dependence of dynamic four-point susceptibilities in glass formers
    D. Chandler, J.P. Garrahan, R.L. Jack, L. Maibaum and A.C. Pan
    Phys. Rev. E 74, 051501 (2006).

  7. 50.Spacetime thermodynamics and subsystem observables in a kinetically constrained model of glassy systems
    R.L. Jack, J.P. Garrahan and D. Chandler
    J. Chem. Phys. 125, 184509 (2006).

  8. 49.Activated aging dynamics and negative fluctuation-dissipation ratios
    P. Mayer, S. Leonard, L. Berthier, J.P. Garrahan and P. Sollich
    Phys. Rev. Lett. 96, 030602 (2006).


2005

  1. 48.Fast Simulation of Facilitated Spin Models
    D.J. Ashton, L.O. Hedges and J.P. Garrahan
    J. Stat. Mech. P12010 (2005).

  2. 47.Caging and mosaic lengthscales in plaquette spin models of glasses
    R.L. Jack and J.P. Garrahan
    J. Chem. Phys. 123, 164508 (2005).

  3. 46.Dynamical Exchanges in Facilitated Models of Supercooled liquids
    Y. Jung, J.P. Garrahan, D. Chandler
    J. Chem. Phys. 123, 084509 (2005).

  4. 45.Dynamic Heterogeneity in the Glauber-Ising chain
    P. Mayer, P. Sollich, L. Berthier and J.P. Garrahan
    J. Stat. Mech. P05002 (2005).

  5. 44.Static and dynamic lengthscales in a simple glassy plaquette model
    R.L. Jack, L. Berthier and J.P. Garrahan
    Phys. Rev. E 72, 016103 (2005).

  6. 43.Thermodynamics of Coarse Grained Models of Super-Cooled Liquids
    D. Chandler and J.P. Garrahan
    J. Chem. Phys. 123, 044511 (2005).

  7. 42.Space-time Thermodynamics of the Glass Transition
    M. Merolle, J.P. Garrahan and D. Chandler
    Proc. Natl. Acad. Sci. USA 102, 10837 (2005).
    Article featured in: This week in PNAS.

  8. 41.Decoupling of self-diffusion and structural relaxation during a fragile-to-strong crossover in a kinetically constrained lattice gas
    A.C. Pan, J.P. Garrahan, D. Chandler
    ChemPhysChem 6, 1783 (2005).

  9. 40.Heterogeneity and growing lengthscales in the dynamics of kinetically constrained lattice gases in two dimensions
    A.C. Pan, J.P. Garrahan, D. Chandler
    Phys. Rev. E 72, 041106 (2005).

  10. 39.Numerical study of a fragile three-dimensional kinetically constrained model
    L. Berthier and J.P. Garrahan
    J. Phys. Chem. B 109, 3578 (2005).

  11. 38.Glassy behaviour in an exactly solved spin system with a ferromagnetic transition
    R.L. Jack, J.P. Garrahan and D. Sherrington
    Phys. Rev. E 71, 036112 (2005).

  12. 37.Length scale for the onset of Fickian diffusion in supercooled liquids
    L. Berthier, D. Chandler and J.P. Garrahan
    Europhys. Lett. 69, 320 (2005).

  13. 36.Renormalization group study of a kinetically constrained model for strong glasses
    S. Whitelam, L. Berthier and J.P. Garrahan
    Phys. Rev. E 71, 026128 (2005).


2004 & 2003

  1. 35.Facilitated spin models in one dimension: a real-space renormalization group study
    S. Whitelam and J.P. Garrahan
    Phys. Rev. E 70, 046129 (2004).

  2. 34.Heterogeneous Dynamics of Coarsening Systems
    P. Mayer, H. Bissig, L. Berthier, L. Cipelletti, J.P. Garrahan, P. Sollich, V. Trappe
    Phys. Rev. Lett. 93, 115701 (2004).

  3. 33.Geometrical picture of dynamical facilitation
    S. Whitelam and J.P. Garrahan
    J. Phys. Chem. B 108, 6611 (2004).

  4. 32.Excitation lines and the breakdown of Stokes-Einstein relations in supercooled liquids
    Y. Jung, J.P. Garrahan and D. Chandler
    Phys. Rev. E 69, 061205 (2004).

  5. 31.Reply to Comment on "Fluctuation-dissipation relations in the non-equilibrium critical dynamics of Ising models"
    P. Mayer, L. Berthier, J.P. Garrahan and P. Sollich
    Phys. Rev. E 70, 018102 (2004).

  6. 30.Dynamic criticality in glass-forming liquids
    S. Whitelam, L. Berthier and J.P. Garrahan
    Phys. Rev. Lett. 92, 185705 (2004).

  7. 29.Real space origin of temperature crossovers in supercooled liquids
    L. Berthier and J.P. Garrahan
    Phys. Rev. E 68, 041201 (2003).

  8. 28.Non-topographic description of inherent structure dynamics in glass formers
    L. Berthier and J.P. Garrahan
    J. Chem. Phys. 119, 4367 (2003).

  9. 27.Fluctuation-dissipation relations in the non-equilibrium critical dynamics of Ising models
    P. Mayer, L. Berthier, J.P. Garrahan and P. Sollich
    Phys. Rev. E 68, 016116 (2003).

  10. 26.Coarse-grained microscopic model of glass formers
    J.P. Garrahan and D. Chandler
    Proc. Natl. Acad. Sci. USA 100, 9710 (2003).

  11. 25.Simple strong glass forming models: mean-field solution with activation
    A. Buhot, J.P. Garrahan and D. Sherrington
    J. Phys. A 36, 307 (2003).


2002 & 2001

  1. 24.Geometrical explanation and scaling of dynamical heterogeneities in glass forming systems
    J.P. Garrahan and D. Chandler
    Phys. Rev. Lett. 89, 035704 (2002).

  2. 23.Fluctuation-dissipation relations in the activated regime of simple strong-glass models
    A. Buhot and J.P. Garrahan
    Phys. Rev. Lett. 88, 225702 (2002).

  3. 22.Glassiness through the emergence of effective dynamical constraints in interacting systems
    J.P. Garrahan
    J. Phys. Condens. Matter 14, 1571 (2002).

  4. 21.Crossover from Fragile to Strong Glassy Behaviour in the Spin Facilitated Chain Model
    A. Buhot and J.P. Garrahan
    J. Phys. Condens. Matter 14, 1499 (2002).

  5. 20.Glassy behaviour in simple kinetically constrained models: topological networks, lattice analogues and annihilation-diffusion
    D. Sherrington, L. Davison, A. Buhot and J.P. Garrahan
    J. Phys. Condens. Matter 14, 1673 (2002).

  6. 19.Crossover from Fragile to Strong Glassy Behaviour in Kinetically Constrained Systems
    A. Buhot and J.P. Garrahan
    Phys. Rev. E 64, 21505 (2001).

  7. 18.Glassy behaviour in a 3-state spin model
    L. Davison, D. Sherrington, J.P. Garrahan and A. Buhot
    J. Phys. A 34, 5147 (2001).

  8. 17.Statistical physics of induced correlation in a simple market
    D. Sherrington, E. Moro and J.P. Garrahan
    Physica A311, 527 (2002).

  9. 16.Correlated adaptation of agents in a simple market: a statistical physics perspective
    J.P. Garrahan, E. Moro, D. Sherrington
    Quantitative Finance 1, 246 (2001).


2000 & earlier

  1. 15.Glassiness and constrained dynamics of a short-range non-disordered spin model
    J.P. Garrahan and M.E.J. Newman
    Phys. Rev. E 62, 7670 (2000).

  2. 14.Continuous time dynamics of the Thermal Minority Game
    J.P. Garrahan, E. Moro, D. Sherrington
    Phys. Rev. E 62, R9 (2000).

  3. 13.Reply to Comment on "Thermal model for adaptive competition in a market”
    A. Cavagna, J.P. Garrahan, I. Giardina and D. Sherrington
    Phys. Rev. Lett. 85, 5009 (2000).

  4. 12.Gauge Invariant Variational Approach with Fermions: the Schwinger Model
    W. Brown, J.P. Garrahan, I.I. Kogan and A. Kovner
    Phys. Rev. D 62, 16004 (2000).

  5. 11.Index Distribution of Random Matrices with an Application to Disordered Systems
    A. Cavagna, J.P. Garrahan and I. Giardina
    Phys. Rev. B 61, 3960 (2000).

  6. 10.Thermal model for adaptive competition in a market
    A. Cavagna, J.P. Garrahan, I. Giardina and D. Sherrington
    Phys. Rev. Lett. 83, 4429 (1999).

  7. 9.Multibaryons as Symmetric Multiskyrmions
    J.P. Garrahan, M. Schvellinger and N.N. Scoccola
    Phys. Rev. D 61, 14001 (2000).

  8. 8.Energy distribution of maxima and minima in a one-dimensional random system
    A. Cavagna, J.P. Garrahan and I. Giardina
    Phys. Rev. E 59, 2808 (1999).

  9. 7.Quenched complexity of the mean-field p-spin spherical model with external magnetic field
    A. Cavagna, J.P. Garrahan and I. Giardina
    J. Phys. A32, 711 (1999).

  10. 6.Instantons and the QCD Vacuum Wavefunctional
    W. Brown, J.P. Garrahan, I.I. Kogan and A. Kovner
    Phys. Rev. D 59, 034015 (1999).

  11. 5.Collective Dynamics of Solitons and Inequivalent Quantizations
    J.P. Garrahan and M. Kruczenski
    J. Math. Phys. 40, 6178 (1999).

  12. 4.Lagrangian Becchi-Rouet-Stora-Tyutin treatment of collective coordinates
    J.P. Garrahan, M. Kruczenski, and D.R. Bes
    Phys. Rev. D 53 (1996) 7176.

  13. 3.Becchi-Rouet-Stora-Tyutin quantization of a soliton model in 2+1 dimensions
    J.P. Garrahan,  M. Kruczenski, C.L. Schat, D.R. Bes and N.N. Scoccola
    Phys. Rev. D 51 (1995) 2950.

  14. 2.BRST treatment of the Bohr collective hamiltonian at high spins
    J.P. Garrahan and D.R. Bes
    Phys. Lett. B331 (1994) 251.

  15. 1.A systematic treatment of triaxial systems at high spins. II
    J.P. Garrahan and D.R. Bes
    Nucl. Phys. A573 (1994) 448.