From bulk to microphase separation in scalar active matter: a perturbative renormalization group analysis
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - arXiv preprint arXiv:1809.10433, 2018 - arxiv.org
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - J. Stat. Mech., 2018 - hal.science
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
[引用][C] From bulk to microphase separation in scalar active matter: a perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - Journal of Statistical Mechanics …, 2018 - cir.nii.ac.jp
From bulk to microphase separation in scalar active matter: a perturbative renormalization
group analysis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 …
group analysis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 …
From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - Journal of Statistical Mechanics …, 2018 - cea.hal.science
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - arXiv e-prints, 2018 - ui.adsabs.harvard.edu
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
From bulk to microphase separation in scalar active matter: a perturbative renormalization group analysis
F Caballero, ME Cates, C Nardini - Journal of Statistical Mechanics, 2018 - inis.iaea.org
[en] We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - Journal of Statistical Mechanics …, 2018 - cnrs.hal.science
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
[PDF][PDF] From bulk to microphase separation in scalar active matter: A perturbative renormalization group analysis
F Caballero, C Nardini, ME Cates - 2018 - hal.science
We consider a dynamical field theory (Active Model B+) that minimally extends the
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …
equilibrium Model B for diffusive phase separation of a scalar field, by adding leading-order …