# Litterature Survey ## Ricardo Brito,Dino Risso,and Rodrigo Soto [Hydrodynamic modes in a confined granular fluid](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ?preview=Hydrodynamic+modes+in+a+confined+granular+fluid.pdf) *Comments:* AP: article where the collisional model with non strictly dissipative collisions had been introduced ## J. S. Olafsen* and J. S. Urbach [Clustering, Order, and Collapse in a Driven Granular Monolayer](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ?preview=Clustering%2C+Order%2C+and+Collapse+in+a+Driven+Granular+Monolayer.pdf) *Comments:* AP:First study on this kind of quasi 2D granular systems ## M. M. de Oliveira,M. G. E. da Luz, and C. E. Fiore [Generic finite size scaling for discontinuous nonequilibrium phase transitions into absorbing states](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ?preview=Generic+finite+size+scaling+for+discontinuous+nonequilibrium+phase+transitions+into+absorbing+states.pdf) *Comments:* AP: they discuss how to do the finite size scaling analisys for discontinuous nonequilibrium phase transitions into absorbing states. I don't really understand which are the difficulties to do that in the regular way. They will probably discuss that somewhere. ## N. Mujica and R. Soto [Dynamics of Noncohesive ConfinedGranular Media](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ?preview=Dynamics+of+Noncohesive+Confined.pdf) *Comments:* AP: Review on the same kind of quasi-2D systems that we are studying.At some point, they propose a model for collisions in which energy can be added and not only dissipated. Tehy say that it is the effect of injecting vertical energy in the xy plane i.e. the same effect that raphael has included with his exponential coeff. of restitution. This collisional model has to be taken under consideration because it is also the 'right' one for the self assembly EDMD. ## P Maynar, M I García de Soria and J Javier Brey [Homogeneous dynamics in a vibrated granular monolayer](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ?preview=Homogeneous+dynamics+in+a+vibrated+granular+monolayer.pdf) *Comments:* AP: Kinetic therory of our experimental setup (quasi 2d) ## Baptiste Néel, Ignacio Rondini, Alex Turzillo, Nicolás Mujica, and Rodrigo Soto [Dynamics of a first-order transition to an absorbing state](https://www.dropbox.com/home/GRANULAR/ADSORBING/TO_READ/Articles_From_Soto?preview=Dynamics+of+a+first-order+transition+to+an+absorbing+state.pdf) *Comments:* AP: It must be read. Setup and key words very similar to what we are studying. They see exactly the phenomenon we are studying without connecting it to the literature of sheared systems. In experiments they just vary the amplitude. In simulations they vary the density but just in a narrow interval near the transition. ## Romain Mari, Eric Bertin and Cesare Nardini [Absorbing phase transitions in systems with mediated interactions](https://www.dropbox.com/s/bw2lgav88a490i6/PhysRevE.105.L032602.pdf?dl=0) *Comments:* AP: Interesting to understand different ingredients in the minimal model used to describe this phenomenon. They discuss what happens when passive particles can move when perturbed by active ones (for example though hydrodynamic interaction). They also perform a numerical characterization of the universality class that can be a conceptual guide. They found no hyperunifrom if they add thi activity dependent diffusion of passive particles. In general, the ingredients they consider is probably no useful for us but the way the analisys is performed is interesting. ## Christopher Ness and Michael E. Cates [Absorbing-State Transitions in Granular Materials Close to Jamming](https://www.dropbox.com/s/og2ifjjyrt882q6/PhysRevLett.124.088004.pdf?dl=0) *Comments:* ## S. Wilken, R. E. Guerra D. Levine,and P. M. Chaikin [Random Close Packing as a Dynamical Phase Transition](https://www.dropbox.com/s/uiclei26gi2a4fv/PhysRevLett.127.038002.pdf?dl=0) *Comments:* ## S. Warr, W. Cooke, R.C. Ball, J.M. Huntley [Probability distribution functions for a single-particle vibrating in one dimension: experimental study and theoretical analysis](https://www.dropbox.com/s/984lp9ldnz7okt7/0378-4371%252896%252900102-1%20%281%29.pdf?dl=0) *Comments:* GF: Andrea, this is the paper I was telling you about on the dynamcs of beads. I did not have time to look to the details but it seems that their calculation does not include the roof. ## Weijs, Jeanneret, Dreyfus and Bartolo [Emergent Hyperuniformity in Periodically Driven Emulsions](https://www.dropbox.com/s/dbspmxwfsm1o9fn/PhysRevLett.115.108301.pdf?dl=0) *Comments:* ## Le Priol, Chopin, Le Doussal, Ponson and Rosso [Universal Scaling of the Velocity Field in Crack Front Propagation](https://www.dropbox.com/s/jhlj16g0kz4ows6/PhysRevLett.124.065501.pdf?dl=0) *Comments:* AP: To do this analisys we need to define a sort of velocity (activity) field in our Exp/Sim. This is doable because (even without measuring velocities) we can give a binary value (0,1) to each particle at each instants and then averaging over 2d bins. Nevertheless, the authors assume that the underlying transition is continous and use their method to measure the critical exponents when the control parameter can't go really near its critical value. I don't know if this can be really useful in our case because it is not straightforward to me what would change in this analisys if the underlying transition in first order. GF: A paper suggested by Alberto Rosso on the analysis of avalanches in the proximity of a dynamical critical point. We need to have a look to the analysis to extract the avalanches size