期刊名称:PHYSICAL REVIEW FLUIDS
 期刊简介(About the journal)
投稿须知(Instructions to Authors)
编辑部信息(Editorial Board)
About the journal
Physical Review Fluids
Physical Review Fluids (PRFluids) is dedicated to publishing innovative research that will significantly advance the fundamental understanding of fluid dynamics. PRFluids embraces both traditional fluid dynamics topics and newer areas, such as bio-related fluid dynamics, micro- and nanoscale flows, fluid mechanics of complex fluids and soft materials, and geophysical and environmental flows.
PRFluids is strongly supported by APS’s Division of Fluid Dynamics (DFD). Since 2017, DFD’s François Frenkiel Award for fluid mechanics is conferred upon a young investigator in recognition of a significant contribution to the field that has been published in PRFluids. PRFluids publishes invited papers from the Annual APS DFD meeting, as well as winning entries from the meeting’s Gallery of Fluid Motion, an exhibition of fluid research images. PRFluids coordinates with other members of the Physical Reviewfamily of journals to serve new subspecialties as they develop, and it closely interacts with the DFD board to expand its scope into emerging research areas of fluid dynamics.
PRFluids publishes detailed research articles as well as Rapid Communications, which are short papers of particular significance. The journal has a flexible approach to article lengths and welcomes submission of longer papers that provide depth and authority in their subject areas.
By Scientists, For Scientists
Like all of the journals in the Physical Review family, PRFluids is shaped by researchers to serve the research community. This commitment ensures that its mission and standards prioritize the needs of researchers and authors, not commercial publishing interests. The journal is international, with approximately three-fifths of published articles originating from outside the U.S. Physical Review’s reach is far and wide, with authors and referees from over 130 countries.
PRFluids Scope
PRFluids covers all aspects of fluid dynamics research, including:
- Biological and biomedical flows
- Combustion fluid mechanics and reacting flows
- Complex and non-Newtonian fluids
- Compressible and rarefied flows, kinetic theory
- Convection
- Drops, bubbles, capsules and vesicles
- Electrokinetic phenomena, electrohydrodynamics, and magnetohydrodynamics
- Geophysical, geological, urban and ecological flows
- Instability, transition, and control
- Interfacial phenomena and flows
- Laminar and viscous flows
- Micro- and nanofluidics
- Multiphase, granular, and particle-laden flows
- Nonlinear dynamical systems
- Transport and mixing
- Turbulent flows
- Vortex dynamics
- Wave dynamics, free surface flows, stratified and rotating flows
PRFluids Acceptance Criteria
Submitted manuscripts should meet the following criteria:
- Present important and novel flow physics that contributes to the fundamental understanding of the subject.
- Represent an authoritative and substantive addition to the body of literature.
- Explore the subject matter comprehensively and thoroughly.
Open Access
At the core of APS's mission is a commitment to meeting the needs of physicists, a community that has been at the leading edge of open access. As a result, APS supports a variety of sustainable access options:
- Authors can pay an article-processing charge (APC) to make accepted manuscripts immediately accessible under a CC-BY (4.0 International) license. In keeping with APS's community-orientation, this is the most permissive license available and permits anyone to copy, distribute, transmit, and adapt the work with proper attribution. APCs cover all costs and decrease the need for subscription revenue, helping to keep subscription price-per-article low (current APS APCs).
- APS authors are free to post the final published version of their articles on their laboratory and institutional web sites.
- APS makes its journals free to read at U.S. public libraries and high schools by application. Contact publisher@aps.org for more information.
- APS is a founding member of CHORUS, which enables distributed public access to published research articles reporting on U.S. federal government funded research.
- APCs for open access publication are waived for authors from countries for which APS offers free online access to its subscription journals
Instructions to Authors
Manuscript Preparation
Length Limits
Supplemental Material
Manuscript Submission
Review Process
Post Acceptance
Editorial Board
APS Editorial Office
Editor in Chief
Michael Thoennessen
Editorial Director
Daniel T. Kulp
Physical Review Fluids Staff
John Kim, Editor
University of California, Los Angeles, CA, USA
 John received his Ph.D. in mechanical engineering in 1978 at Stanford University and then worked as a postdoctoral fellow, research scientist, and branch chief at NASA Ames Research Center. He joined UCLA in 1993 as Rockwell Collins Professor. He is a Fellow of the APS and the AIAA and a member of the National Academy of Engineering. He received the Otto Laporte Award from the American Physical Society in 2001, and he served as Editor of Physics of Fluids from 1998 to 2015.
Gary Leal, Editor
University of California, Santa Barbara, CA, USA
 Gary obtained his Ph.D. in chemical engineering at Stanford University and did postdoctoral work at DAMTP, Cambridge University. He is the Schlinger Professor of Chemical Engineering and also holds appointments in the Mechanical Engineering and Materials departments at the University of California, Santa Barbara. He is an APS Fellow and a member of NAE and the American Academy for Arts and Sciences. He served as Editor of Physics of Fluids for 18 years. His research concentrates on viscous flow phenomena and complex fluids.
Bradley Rubin, Journal Manager
American Physical Society, Ridge, NY, USA
 Brad received a B.S. from the University of Maryland in College Park and a Ph.D. in physics from Columbia University in 1990 (high-energy physics). He subsequently held research positions at NASA in Huntsville, Alabama and the Riken Institute in Japan. Brad grew up in Baltimore, Maryland. He joined Physical Review B in 1999 and is also a member of the editorial team of Physical Review C.
Michael Brenner, Associate Editor
Harvard University, Cambridge, MA, USA
 Michael received his Ph.D. in physics from the University of Chicago and then joined the Mathematics Department at the Massachusetts Institute of Technology. He is now the Glover Professor of Applied Mathematics and Applied Physics, and Professor of Physics, at Harvard University.
Jonathan B. Freund, Associate Editor
University of Illinois at Urbana-Champaign, IL, USA
 Jonathan received his Ph.D. in 1998 from Stanford University. From 1998 to 2001, he served on the faculty of the University of California, Los Angles, before moving to the University of Illinois at Urbana-Champaign, where he is a Kritzer Faculty Scholar in Mechanical Science & Engineering and jointly appointed in Aerospace Engineering. Most of his work is in flow physics, usually using computational methods. Applications areas include turbulent-jet noise, cell-scale microcirculatory blood flow, shock-wave lithotripsy, atomic-scale flow mechanisms, and recently plasma-coupled combustion. At Illinois, he co-directs the Center for Exascale Simulation of Plasma-Coupled Combustion.
Nicolas Hadjiconstantinou, Associate Editor
Massachusetts Institute of Technology, Cambridge, MA, USA
 Nicolas obtained his Ph.D. in mechanical engineering in 1998 from the Massachusetts Institute of Technology. Following a one year postdoctoral fellowship at the Lawrence Livermore National Laboratory as Lawrence Livermore Fellow, he joined the faculty of the Mechanical Engineering Department, where he is now a Professor and co-director of the Computation for Design and Optimization (CDO) and Computational Science and Engineering (CSE) Programs.
John Hinch, Associate Editor
Handling the Rapid Communications section
University of Cambridge, United Kingdom
 John received his education at Cambridge University, graduating with a B.A. in mathematics in 1968 and a Ph.D., supervised by George Batchelor, in 1972 on the “Mechanics of suspensions of particles in fluids, with an additional section on the convection due to a moving heat source.” After a postdoc at Caltech under the then young Gary Leal, he returned to a faculty position at Cambridge University and since 1998 has been a Professor of Fluid Mechanics there. He has benefited greatly from many collaborations, initially with Andreas Acrivos and his students, and later with many experimental groups in France following introductions by Etienne Guyon. He is a Fellow of the APS and the Royal Society of London. His research interests include suspensions of particles and other mobile particulate systems, the flow of non-Newtonian fluids, and applications of mathematics to industrial problems.
Eric Lauga, Associate Editor
University of Cambridge, United Kingdom
 Eric received his Ph.D. in applied mathematics from Harvard University in 2005. After stints on the faculty at MIT and the University of California, San Diego, he is now Reader in Applied Mathematics at the University of Cambridge and a Fellow of Trinity College, Cambridge.
Beverley J. McKeon, Associate Editor
California Institute of Technology, Pasadena, CA, USA
 Beverley McKeon is the Theodore von Karman Professor of Aeronautics at the Graduate Aerospace Laboratories at Caltech (GALCIT). Her research interests include interdisciplinary approaches to manipulation of boundary layer flows using morphing surfaces, fundamental investigations of wall turbulence at high Reynolds number, the development of resolvent analysis for modeling turbulent flows, and assimilation of experimental data for efficient low-order flow modeling.
Eckart Meiburg, Associate Editor
University of California, Santa Barbara, CA, USA
 Eckart received his Ph.D. from the University of Karlsruhe, Germany, in 1985. He subsequently was a postdoc at Stanford University and held faculty positions at Brown University and the University of Southern California, before joining the University of California, Santa Barbara, in 2000. His research focuses on computational fluid dynamics, with an emphasis on multiphase and geophysical flows.
Peter J. Schmid, Associate Editor
Imperial College London, United Kingdom
 Peter is Chair Professor of Applied Mathematics and Mathematical Physics at Imperial College London. He did his undergraduate and graduate studies in aerospace engineering at the Technical University Munich and obtained his doctoral degree in mathematics from the Massachusetts Institute of Technology. His main research interests lie in theoretical and computational fluid mechanics with an emphasis on hydrodynamic stability theory, flow control, model reduction, system identification, and the analysis of a wide range of fluid flows using adjoint sensitivity and optimization techniques. He is also interested in quantitative flow analysis using data-driven decomposition methods.
Eric Shaqfeh, Associate Editor
Stanford University, Stanford, CA, USA
 Eric is the Lester Levi Carter Professor at Stanford University. He has appointments in the Departments of Chemical Engineering and Mechanical Engineering as well as the Institute for Computational and Mathematical Engineering. His current research interests include non-Newtonian fluid mechanics (especially in the area of elastic instabilities and turbulent drag reduction), nonequilibrium polymer statistical dynamics (focusing on single-molecule studies of DNA), and suspension mechanics (particularly of fiber suspensions and particles/vesicles in microfluidics).
Howard A. Stone, Associate Editor
Princeton University, Princeton, NJ, USA
 Howard received his Ph.D. in chemical engineering from Caltech in 1988. He is an APS Fellow and was first Secretary/Treasurer, then Chair of the Division of Fluid Dynamics. His research interests are in fluid dynamics and soft condensed matter physics.
Bruce R. Sutherland, Associate Editor
University of Alberta, Edmonton, Canada
 Bruce received his Ph.D. in atmospheric science in the Department of Physics at the University of Toronto in 1994, then pursued postdoctoral training in the Department of Applied Mathematics and Theoretical Physics at the University of Cambridge, before taking up a position in 1997 as Assistant Professor in the Department of Mathematics at the University of Alberta. He is now a Professor jointly appointed in the Departments of Physics and of Earth & Atmospheric Sciences at the University of Alberta. His research combines theory, numerical simulations, and laboratory experiments to examine phenomena occurring in stratified fluid. Main topics include interfacial and vertically propagating internal waves, the evolution of gravity currents and plumes in stratified fluids, and the transport and deposition of sediments in geophysical flows.
Emmanuel Villermaux, Associate Editor
Aix-Marseille Université, Marseille, France
 Emmanuel received his Ph.D. from the University of Paris VI, Pierre & Marie Curie, in Grenoble, where he was appointed at CNRS, and he obtained his habilitation from Joseph Fourier University. He now holds a position of distinguished Professor at Aix Marseille University, and at the Institut Universitaire de France. He is an APS Fellow. His interests are in the mechanics of deformable bodies in the broad sense, from fluids to solids, with a particular taste for mixing and fragmentation.
Editorial Board
Shelley L. Anna
Carnegie Mellon University, Pittsburgh, PA, USA
 Shelley received her Ph.D. in engineering science from Harvard University. She is now Professor of Chemical Engineering and Mechanical Engineering at Carnegie Mellon University with an affiliated appointment in Physics. She is a Fellow of the American Physical Society, and her research interests are in multiphase microfluidics, interfacial rheology, and microscale transport phenomena.
Guido Boffetta
University of Turin, Turin, Italy
 Guido Boffetta is a Full Professor at the University of Turin as well as an Associate Member of both the Institute of Atmospheric Sciences and Climate and the National Institute for Nuclear Physics. He received his Ph.D. in physics at the University of Turin. Dr. Boffetta was a Visiting Professor at the Université de Nice and a Visiting Scientist at the Max Planck Institute for Dynamics and Self-Organization. His research interests include the interaction of numerical simulations and theoretical models and, more recently, fully developed turbulence, in both two and three dimensions, with applications to non-Newtonian fluids, turbulent convection, and biological interactions.
Iain D. Boyd
University of Michigan, Ann Arbor, MI, USA
 Iain D. Boyd is the James E. Knott Professor of Engineering in the Department of Aerospace Engineering at the University of Michigan. He received a Ph.D. in aeronautics and astronautics (1988) from the University of Southampton in England. He worked for four years as a contractor at NASA Ames Research Center in the area of aerothermodynamics. Dr. Boyd was a faculty member in mechanical and aerospace engineering at Cornell University for six years. He joined the University of Michigan in 1999. His research interests involve the development and application of physical models and computational methods for analysis of nonequilibrium gas and plasma dynamics. He has authored over 200 journal articles and more than 300 conference papers. Dr. Boyd is a Fellow of the APS and a Fellow of the American Institute of Aeronautics and Astronautics (AIAA). He received the 1998 AIAA Lawrence Sperry Award. Dr. Boyd serves on the Air Force Scientific Advisory Board. He was a member of the Editorial Advisory Board of Physics of Fluids, an Associate Editor of the Journal of Spacecraft and Rockets, and is a current Associate Editor of the Journal of Thermophysics and Heat Transfer.
Luminita Danaila
University of Rouen Normandy, France
 Luminita Danaila is Professor of Physics at the University of Rouen Normandy, France, with a conjoint Professor appointment at the University of Newcastle, Australia. She received her PhD in 1998 from the Aix-Marseille University and was awarded the 1999 Thesis Prize of the French Association of Mechanics. She is the recipient of the 1995 ‘Amelia Earhart Fellowship Award’ of Zonta International Foundation. She served as Director of the National Group of Research in Turbulence (GdR ‘Turbulence’) from 2012 to 2016. Her research focuses on theoretical and experimental investigation of turbulence, with emphasis on mixing of passive and active scalars, variable viscosity and density flows, superfluid turbulence. Her research interests also include flow and heat applications for green energies and sustainable management of energy (phase change materials, wind turbines).
Jeff D. Eldredge
University of California, Los Angeles, CA, USA
 Jeff D. Eldredge is Professor of Mechanical & Aerospace Engineering at the University of California, Los Angeles. He earned his M.S. and Ph.D. from Caltech and his B.S. from Cornell University. His current research interests include theoretical and computational modeling of unsteady aerodynamics, biologically-inspired locomotion, biomedical flows, and fluid-structure interactions. He is a Fellow of the APS, has received the NSF CAREER Award, and is the co-founder of the Southern California Symposium on Flow Physics.
Toshiyuki Gotoh
Nagoya Institute of Technology, Nagoya, Japan
 Toshiyuki Gotoh is a Professor at the Nagoya Institute of Technology as well as a Visiting Professor at the Isaac Newton Institute in Cambridge. He received his Ph.D. in applied physics from the Nagoya University Graduate School of Engineering. His research areas include theory of turbulence, computational science of turbulence and scalar mixing, and cloud turbulence.
Rama Govindarajan
Tata Institute of Fundamental Research, Hyderabad, India
 Rama Govindarajan is a Professor at the Tata Institute of Fundamental Research, in their Centre for Interdisciplinary Sciences, Hyderabad, India. She was previously on the faculty of the Jawaharlal Nehru Centre for Advanced Scientific Research and at the National Aerospace Laboratories, Bangalore. She received her Ph.D. from the Indian Institute of Science, Bangalore, and was a postdoctoral fellow at Caltech. She is an APS Fellow. Her research interests are in viscosity- and density-stratified flows, instability and transition, particle-laden flows and vortex dynamics.
Guowei He
Chinese Academy of Sciences, Beijing, China
 Guowei He is a Professor at the Institute of Mechanics, Chinese Academy of Science. His research interests include turbulence statistical theory and computational modeling, large eddy simulation of turbulence-generated noise and particle-laden turbulence, biolocomotion and vortex dynamics. He is author or coauthor of more than 80 refereed journal papers and numerous conference papers and presentations.
G. M. Homsy
University of Washington, Seattle, WA, USA
 G. M. “Bud” Homsy received his B.S. at the University of California, Berkeley, his M.S./Ph.D. at the University of Illinois, and he had a NATO postdoctoral fellowship at Imperial College, London. Professor Homsy joined Stanford’s Chemical Engineering Department in Fall, 1970, where he taught for 30 years before joining the faculty of the Mechanical Engineering Department at the University of California, Santa Barbara, in 2001. He joined the Mathematics Department at the University of British Columbia in 2011 and served as Deputy Director of the Pacific Institute for the Mathematical Sciences until his retirement in 2013. He is currently an Affiliated Faculty at the University of Washington. His field of research is fluid mechanics and transport phenomena, and he has published over 150 papers in the lead journals in the field.
Anette (Peko) Hosoi
Massachusetts Institute of Technology, Cambridge, MA, USA
 Anette (Peko) Hosoi, Professor of Mechanical Engineering, is jointly appointed with the Mathematics Department. She received her Ph.D. in physics from the University of Chicago in 1997. She first came to MIT as an Applied Mathematics Instructor from 1998 to 2000, and joined the Mechanical Engineering faculty in 2002. Professor Hosoi is a specialist in free surface flows, surface tension, and complex fluid dynamics. In 2004 she was appointed the Doherty Professor in Ocean Utilization, and in 2005 she received the Ruth and Joel Spira Award for Distinguished Teaching. In 2006 she received the School of Engineering Junior Bose Award for Education, and in 2010 she was selected by MIT to be a MacVicar Fellow. In 2012 she became a fellow of the APS.
Nicholas Hutchins
University of Melbourne, Melbourne, Australia
 Nick Hutchins received his Ph.D. in 2003 from the University of Nottingham, UK. He subsequently held postdoctoral positions at the University of Minnesota and the University of Melbourne, before becoming a faculty member in the Department of Mechanical Engineering at the University of Melbourne in 2009. He researches wall-bounded turbulent flows, with particular emphasis on flows over rough surfaces, perturbed turbulent boundary layers, and large-scale coherent motions.
Changhoon Lee
Yonsei University, Seoul, Korea
 Changhoon Lee is a Professor at Yonsei University in Korea, jointly affiliated with the Department of Mechanical Engineering and the Department of Computational Science and Engineering. He received his Ph.D. in mechanical engineering from the University of California at Berkeley. His research interests include fundamentals of turbulence, particle-laden turbulence, dispersion modeling, and numerical algorithms.
Parviz Moin
Stanford University, Stanford, CA, USA
 Parviz Moin is the Franklin P. and Caroline M. Johnson Professor of Mechanical Engineering and the Founding Director of the Center for Turbulence Research (CTR) at Stanford University. Professor Moin pioneered the use of direct numerical simulation and large eddy simulation techniques for the study of turbulence physics, control, and modeling of fluid mechanics, and he has written widely on the structure of turbulent shear flows. His current research interests include the interaction of turbulent flows and shock waves, aerodynamic noise, hydro-acoustics, aero-optics, combustion, numerical analysis, turbulence control, large eddy simulation, and parallel computing.
Stephen B. Pope
Cornell University, Ithaca, NY, USA
 Steve Pope is the Sibley College Professor of Mechanical Engineering Emeritus at Cornell University. He received his undergraduate and graduate education in the Mechanical Engineering Department of Imperial College, London. Following postdoctoral positions at Imperial College and in applied mathematics at the California Institute of Technology, he joined the Mechanical Engineering faculty at the Massachusetts Institute of Technology and then moved to Cornell in 1982. Steve Pope’s research is in the areas of modeling and simulation of turbulent flows and turbulent combustion. He pioneered the use of probability density function (PDF) models for turbulent reactive flows, and he has made various contributions to the statistical modeling of turbulent flows and to their study via direct numerical simulations and large-eddy simulations. For combustion chemistry, he has developed a number of dimension-reduction and tabulation methodologies.
David Quéré
École Polytechnique, Paris, France
 David Quéré earned his Ph.D. at the Université Pierre-et-Marie-Curie, Paris. He is a Professor at the École Supérieure de Physique et Chimie Industrielles (ESPCI), Paris, and at École Polytechnique, Paris. He is the Director of Research at CNRS, ESPCI, Paris, His research areas include soft matter physics, with a particular interest in interfacial hydrodynamics—drops, films, morphogenesis, coating, and biomimetics.
Jacco Snoeijer
University of Twente, Enschede, The Netherlands
 Jacco Snoeijer is a Full Professor at the University of Twente. He received his PhD in physics from Leiden University in 2003, after which he was a postdoctoral fellow at the ESPCI in Paris and the University of Bristol. He held a research position at the Eindhoven University of Technology from 2013-2017. His research interests include capillary flows, drops, wetting, lubrication and elasticity.
Todd Squires
University of California, Santa Barbara, CA
 Todd Squires is Professor of Chemical Engineering at UC Santa Barbara. His research includes theoretical and experimental studies, targeting both fundamental and applied questions in complex fluids and multifunctional mixtures, dynamics and rheology of surfactant-laden interfaces, and microfluidic and electrokinetic systems. Honors include APS fellowship, the GSOFT Early Career Award, Francois Frenkiel Award, Beckman Young Investigator, Camille & Henry Dreyfus Teacher-Scholar, and the NSF CAREER award.
Roberto Zenit
Universidad Nacional Autonoma de Mexico, Mexico City, Mexico
 Roberto Zenit received his Ph.D. from the Mechanical Engineering Department at Caltech in 1998. After a postdoctoral period at Cornell University, he moved to Mexico City in 2000 to become a faculty member at the Universidad Nacional Autónoma de México (UNAM). He has been there ever since. He is now a Full Professor of Mechanical Engineering and a researcher at the Instituto de Investigaciones en Materiales, both at UNAM. His area of expertise is fluid mechanics; he has worked in a wide variety of subjects including multiphase and granular flows, biological flows, rheology, and more recently, the fluid mechanics of art history.
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