The Net Advance of Physics:
FLUID DYNAMICS
FLUID DYNAMICS:
General:
Kennett no date;
Aerodynamics for Students
by D. J. Auld and K. Srinivas [2006] Online textbook.
Introduction to Hydrodynamics
by Sangyong Jeon and Ulrich Heinz [2015/03]
Introduction to Mechanics of Particles and Systems
by Costas J. Papachristou [Hellenic Naval Academy, 2017] 239 pp., with solved problems. [PDF]
Topics in Applied Mathematics and Nonlinear Waves
by Per Kristen Jakobsen [2019/04] 320 pp.
Conserved quantities and regularity in fluid dynamics
by E. Wiedemann [2020/03]
A short course on tensor algebra and analysis, with applications to differential geometry [and continuum mechanics]
by P. Vannucci [2021/11] 122 pp.
General: NUMERICAL METHODS:
Advanced numerical methods in astrophysical fluid dynamics
by A. Hujeirat et al. [2007/12]
Modal Analysis of Fluid Flows: An Overview
by Kunihiko Taira et al. [2017/02]
An Introduction to Adjoints and Output Error Estimation in Computational Fluid Dynamics
by Steven M. Kast [2017/12]
Relativistic Fluid Dynamics Out of Equilibrium -- Ten Years of Progress in Theory and Numerical Simulations of Nuclear Collisions
by Paul Romatschke and Ulrike Romatschke [2017/12] 196 pp.
Approaches for Modeling of the Complex Heat and Fluid Flows and Other Physical Processes of Fractal Nature
by Ivan V. Kazachkov [2018/02]
Simulating fluids with a computer: introduction and recent advances
by Bruno Levy [2018/11]
Machine Learning for Fluid Mechanics
by Steven Brunton et al. [2019/05]
A Review on Deep Reinforcement Learning for Fluid Mechanics
by Paul Garnier et al. [2019/08]
A review on deep-reinforcement-learning for fluid mechanics: An update
by J. Viquerat et al. [2021/07]
Quantum computing for fluids: Where do we stand?
by S. Succi et al. [2023/07]
General: NUMERICAL METHODS: Homepages:
CFD Online;
Type: AERODYNAMICS:
Aerodynamics for Students
by D. J. Auld and K. Srinivas [2006] Online textbook.
The Story of Airplane Wings
by S. Greydanus [2020/10]
Type: AERODYNAMICS: Re: AUTOMOBILES:
Aerodynamics in Racing
[EngineeringDegree.Net] Homepage.
Type: EULERIAN:
Trac and Pen 2002/10;
Type: GEOMETRICAL:
Geometric Hydrodynamics: From Euler to Poincaré to Arnold
by Klas Modin [2018/12]
Type: GEOPHYSICAL:
Fluid Dynamics of Earth's Core: Geodynamo, Inner Core Dynamics, Core Formation
by Renaud Deguen and Marine Lasbleis [2018/04]
Type: NON-EQUILIBRIUM:
Relativistic Fluid Dynamics Out of Equilibrium -- Ten Years of Progress in Theory and Numerical Simulations of Nuclear Collisions
by Paul Romatschke and Ulrike Romatschke [2017/12] 196 pp.
Type: QUANTUM:
Quantum Hydrodynamics
by Shabbir A. Khan and Michael Bonitz [2013/10]
Type : RELATIVISTIC:
Marti and Mueller 99/06;
Font 2000/03;
An introduction to the theory of rotating relativistic stars
by Eric Gourgoulhon [2010/02]
Real relativistic fluids in heavy ion collisions
by Esteban Calzetta [2013/07]
Anisotropic Hydrodynamics: Three lectures
by Michael Strickland [2014/06]
Hydrodynamic Approaches in Relativistic Heavy Ion Reactions
by Rafael Derradi de Souza et al. [2015/06]
Hydrodynamics in heavy-ion collisions: recent developments
by Amaresh Jaiswal and Victor Roy [2016/05]
Review of anisotropic flow correlations in ultrarelativistic heavy-ion collisions
by You Zhou [2016/07]
Holography, Hydrodynamization and Heavy-Ion Collisions
by Michal P. Heller [2016/10]
Relativistic Fluid Dynamics Out of Equilibrium -- Ten Years of Progress in Theory and Numerical Simulations of Nuclear Collisions
by Paul Romatschke and Ulrike Romatschke [2017/12] 196 pp.
New developments in relativistic hydrodynamics
by N. Weickgenannt [2022/07]
Recent developments in mathematical aspects of relativistic fluids
by M. M. Disconzi [2023/08]
Type: SMOOTHED-PARTICLE:
Smoothed Particle Hydrodynamics and Magnetohydrodynamics
by Daniel J. Price [2010/12]
Smoothed Particle Hydrodynamics in Astrophysics
by Volker Springel [
Ann. Rev. Astron. & Astroph. 48
, 391 (2010)]
Smoothed Particle Hydrodynamics: Things I wish my mother taught me
by Daniel J. Price [2011/08]
Review on smoothed particle hydrodynamics: Methodology development and recent achievement
by C. Zhang et al. [2022/05]
Aspects:
LATTICE BOLTZMANN SIMULATIONS;
SHOCKWAVES;
SWIMMING;
TURBULENCE;
WAKES;
WIND TUNNELS;
Aspects: ATTRACTORS:
Hydrodynamic attractors in heavy ion collisions: A review
by A. Soloviev [2021/09]
Aspects: CAVITATION:
See also
SONOLUMINESCENCE
Mechanics of Collapsing Cavitation Bubbles
by Leen van Wijngaarden [
Ultrasonics Sonochemistry 29
, 524 (2016)]
Aspects: FLOATING OBJECTS:
The fluid mechanics of poohsticks
by J. H. E. Cartwright and O. Piro [2021/04]
Aspects: INSTABILITIES:
The long hot summer of the tokamak
by Alexander Kendl [2011/10] An essay on the theme of instability in quasi-2D flow as an issue both in meteorology and in the design of fusion reactors.
Rossby Wave Instability in Astrophysical Discs
by R. V. E. Lovelace and M. M. Romanova [
Fluid Dynamics Research 46
, 041401 (2014)]
Aspects: PARTICLE RESUSPENSION:
Particle resuspension from complex surfaces: current knowledge and limitations
by Christophe Henry et al. [2018/02]
Re:
ANGULAR MOMENTUM TRANSPORT
:
Mini-conference on angular momentum transport in laboratory and nature
by Hantao Ji et al. [APS 2007/12]
Re: ASTROPHYSICS:
Rasio and Lombardi 98/05;
Rasio 99/11;
Surprises in astrophysical gasdynamics
by Steven A. Balbus and William J. Potter [2016/03]
Lecture Notes: Astrophysical Fluid Dynamics
by Gordon I. Ogilvie [2016/04]
Re: BIOLOGY:
Water Movement in Vascular Plants: A Primer
by Sanjay P. Sane and Amit K. Singh [
Journal of the Indian Institute of Science 91
, 233 (2011)]
An introduction to the hydrodynamics of locomotion on small scales
by Eric Lauga [Les Houches 2012]
Bacterial Hydrodynamics
by Eric Lauga [2015/09]
The Hydrodynamics of Active Systems
by Julia M. Yeomans [2015]
An Updated Review of Methods and Advancements in Microvascular Blood Flow Imaging
by Cerine Lal and Martin J. Leahy [
Microcirculation 23
, 345 (2016)]
Active Brownian Particles in Complex and Crowded Environments
by Clemens Bechinger et al. [2016/02]
Nobel Symposium 162: Microfluidics
edited by Johan Elf et al. [2017/12]
Microfluidics in Late Adolescence
by George Whitesides [2018/02]
Microfluidics for Chemical Synthesis: Flow Chemistry
by Klavs F. Jensen [2018/02]
Re: BUBBLY DRINKS:
The Fluid Mechanics of Bubbly Drinks
by Roberto Zenit and Javier Rodríguez-Rodríguez [
Physics Today 71(11)
, 44 (November 2018)]
Re: CHAOS:
Gallavotti 97/12;
Chaos in Partial Differential Equations, Navier-Stokes Equations and Turbulence
by Y. Charles Li [2007/12]
Chaotic Lagrangian transport and mixing in the ocean
by S. V. Prants [
European Physical Journal Special Topics 223
, 2723 (2014)]
Re: CHEMISTRY:
Microfluidics for Chemical Synthesis: Flow Chemistry
by Klavs F. Jensen [2018/02]
Re: CHERENKOV EFFECT:
The Cerenkov effect revisited: from swimming ducks to zero modes in gravitational analogs
by Iacopo Carusotto and Germain Rousseaux [2011/05]
Re: CLOUDS:
Fluid dynamics in clouds: The sum of its parts
by S. Ravichandran et al. [2021/02]
Re: COSMOLOGY:
Bertschinger 95/03;
Re: ELECTRONS:
Hydrodynamics of electrons in graphene
by Andrew Lucas and Kin Chung Fu [2017/10]
Viscous Electron Fluids
by Marco Polini and Ander K. Geim [2019/09]
Re: GALAXIES: CENTRAL REGIONS:
Maciejewski 2003/02;
Re: INSTANTONS:
The instanton method and its numerical implementation in fluid mechanics
by Tobias Grafke et al. [2015/06]
Re: NETWORK SCIENCE:
Network-based analysis of fluid flows: Progress and outlook
by K. Taira and A. G. Nair [2021/11]
Re:
NON-COMMUTATIVE FIELD THEORY:
Lochlainn O'Raifeartaigh, Fluids, and Noncommuting Fields
by R. Jackiw [2002/09]
Observations on noncommuting coordinates and on fields depending on them
by R. Jackiw [
Ann. Inst. H. Poincaré 4S2
, S913 (2003)]
Noncommuting fields and non-Abelian fluids
by R. Jackiw [2003/05]
Re: OCEANS:
Chaotic Lagrangian transport and mixing in the ocean
by S. V. Prants [
European Physical Journal Special Topics 223
, 2723 (2014)]
Re: POLYMERS:
Single Polymer Dynamics for Molecular Rheology
by Charles M. Schroeder [2017/12]
Re: RELATIVISTIC HEAVY ION COLLISIONS:
Kolb and Heinz 2003/05;
Hydrodynamics and Flow
by Tetsufumi Hirano et al. [2008/02]
Introduction to Hydrodynamics
by Sangyong Jeon and Ulrich Heinz [2015/03]
Hydrodynamic Approaches in Relativistic Heavy Ion Reactions
by Rafael Derradi de Souza et al. [2015/06]
Hydrodynamic Overview at Hot Quarks 2016
by Jacquelyn Noronha-Hostler [2016/10]
Recent development of hydrodynamic modeling in heavy-ion collisions
by C. Shen and L. Yan [2020/10]
Re: STARS:
An introduction to the theory of rotating relativistic stars
by Eric Gourgoulhon [2010/02]
Re: SYMMETRIES:
Straumann 98/10;
THE NET ADVANCE OF PHYSICS