New insights into how fluids transform from order to disorder.
A 3D reconstruction of the collision dynamics of two vortices.
(Source: Ryan Mc Keown/Harvard SEAS)
Turbulence is everywhere — it rattles our planes and makes tiny whirlpools in our bathtubs — but it is one of the least understood phenomena in classical physics.
Turbulence occurs when an ordered fluid flow breaks into small vortices, which interact with each other and break into even smaller vortices, which interact with each other and so-on, becoming the chaotic maelstrom of disorder that makes white water rafting so much fun.
But the mechanics of that descent into chaos have puzzled scientists for centuries.
When they don’t understand something, physicists have a go-to solution: smash it together. Want to understand the fundamental building blocks of the universe? Smash particles together. Want to unravel the underlying mechanics of turbulence? Smash vortices together.
Researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) may have identified a fundamental mechanism by which turbulence develops by smashing vortex rings head-on into each other, recording the results with ultra-high-resolution cameras, and reconstructing the collision dynamics using a 3D visualisation programme. Coupled with the analysis of numerical simulations performed by collaborators at the University of Houston and ENS de Lyon, the researchers have gained unprecedented insight into how fluidic systems transform from order to disorder.
“Our ability to predict the weather, understand why a Boeing 747 flies even with turbulent currents in its wake, and determine the global flows in the ocean depends on how well we model turbulence,” said Shmuel Rubinstein, Associate Professor of Applied Physics at SEAS and corresponding author of the paper. “However, our understanding of turbulence still lacks a mechanistic description that explains how energy cascades to smaller and smaller scales until it is eventually dissipated. This research opens the door to just that kind of understanding.”
“Trying to make sense of what is going on in an exceedingly complex system like turbulence is always a challenge,” said Rodolfo Ostilla-Mónico, Assistant Professor of Mechanical Engineering at the University of Houston and corresponding author of the paper. “At every length-scale, vortices are straining and compressing each other to generate a chaotic picture. With this work, we can begin to isolate and watch simple pair interactions, and how these lead to rich dynamics when enough of them are present.”
Physicists have been using vortex colliders to understand turbulences since the 1990s, but previous experiments haven’t been able to slow down and reconstruct the mechanics of the collision, the moment it descends into chaos. To do that, the researchers synchronised a powerful scanning laser sheet with a high-speed camera — capable of snapping hundreds of thousands of images per second — to rapidly scan the entire collision in real time.
They used vortex cannons in a 75-gallon aquarium to produce the vortices. Each vortex was dyed a different colour, so researchers could observe how they interact when they violently collide. It takes less than a second for the rings to disappear into a puff of dye after the collision, but within that time, a lot of physics happens.
First, the rings stretch outward as they smash into each other and the edges form antisymmetric waves. The crests of these waves develop into finger-like filaments, which grow perpendicularly between the colliding cores.
These filaments counter-rotate with their neighbors, creating a new array of miniature vortices that interact with each other for milliseconds. Those vortices also form filaments, which in turn form vortices. The research team observed three generations of this cascading cycle, each one the same as before, only smaller — a Russian nesting doll of disorder.
“This similar behaviour from the large scale to the small scale emerges very rapidly and orderly before it all breaks down into turbulence,” said Ryan Mc Keown, a graduate student at SEAS and first author of the paper. “This cascading effect is really exciting because it could point to a universal mechanism for how these interactions work, independent of scale.”
In addition to the experiments, the research team also developed numerical simulations to understand the dynamics of the breakdown and quantify how the energy spectrum of the cascade evolves. Turbulence has a very specific and well-defined energy spectrum. While this system is considerably simpler than the turbulence that rattles a plane, the researchers found that the energy spectrum at the late-stage breakdown of the vortices follows the same tell-tale scaling of fully developed turbulence.
Date: 08.12.2025
Naturally, we always handle your personal data responsibly. Any personal data we receive from you is processed in accordance with applicable data protection legislation. For detailed information please see our privacy policy.
Consent to the use of data for promotional purposes
I hereby consent to Vogel Communications Group GmbH & Co. KG, Max-Planck-Str. 7-9, 97082 Würzburg including any affiliated companies according to §§ 15 et seq. AktG (hereafter: Vogel Communications Group) using my e-mail address to send editorial newsletters. A list of all affiliated companies can be found here
Newsletter content may include all products and services of any companies mentioned above, including for example specialist journals and books, events and fairs as well as event-related products and services, print and digital media offers and services such as additional (editorial) newsletters, raffles, lead campaigns, market research both online and offline, specialist webportals and e-learning offers. In case my personal telephone number has also been collected, it may be used for offers of aforementioned products, for services of the companies mentioned above, and market research purposes.
Additionally, my consent also includes the processing of my email address and telephone number for data matching for marketing purposes with select advertising partners such as LinkedIn, Google, and Meta. For this, Vogel Communications Group may transmit said data in hashed form to the advertising partners who then use said data to determine whether I am also a member of the mentioned advertising partner portals. Vogel Communications Group uses this feature for the purposes of re-targeting (up-selling, cross-selling, and customer loyalty), generating so-called look-alike audiences for acquisition of new customers, and as basis for exclusion for on-going advertising campaigns. Further information can be found in section “data matching for marketing purposes”.
In case I access protected data on Internet portals of Vogel Communications Group including any affiliated companies according to §§ 15 et seq. AktG, I need to provide further data in order to register for the access to such content. In return for this free access to editorial content, my data may be used in accordance with this consent for the purposes stated here. This does not apply to data matching for marketing purposes.
Right of revocation
I understand that I can revoke my consent at will. My revocation does not change the lawfulness of data processing that was conducted based on my consent leading up to my revocation. One option to declare my revocation is to use the contact form found at https://contact.vogel.de. In case I no longer wish to receive certain newsletters, I have subscribed to, I can also click on the unsubscribe link included at the end of a newsletter. Further information regarding my right of revocation and the implementation of it as well as the consequences of my revocation can be found in the data protection declaration, section editorial newsletter.
“This is a great indication that while this is a different system — for a brief time — it is creating the same conditions of turbulence. It’s a starting point,” said Mc Keown.
This research was co-authored by Alain Pumir, Professor of Physics at ENS de Lyon, and Michael P. Brenner, the Glover Professor of Applied Mathematics and Applied Physics.
It was supported by the National Science Foundation through the Harvard Materials Research Science and Engineering Center (MRSEC) under grant number DMR-1420570 and through the Division of Mathematical Sciences under grant numbers DMS-1411694 and DMS-1715477.
:quality(80)/p7i.vogel.de/wcms/aa/39/aa398d3e6667bdb43ad57abf38dc394c/0129347450v2.jpeg "An illustration shows a strand of engineered DNA passing through a nanoscale sensor, where its physical structure can be decoded as digital information. DNA nanostructures could one day serve as ultra-dense carriers of digital information and advance the field of data encryption. (Source: Jason Drees/ ASU)")
:quality(80)/p7i.vogel.de/wcms/06/a1/06a11f1d752afb35854aa9e1afb62e98/0129209625v2.jpeg "“Unsinkable\" metal tube made from chemically-etched aluminum floats in distilled water at the lab of University of Rochester professor Chunlei Guo. (Source: J. Adam Fenster / University of Rochester)")
:quality(80)/p7i.vogel.de/wcms/6d/df/6ddf023361ec7f8fbfb6c56521577960/0129056554v2.jpeg "The evolution of carburization (depicted by the spheres) under kinetic control (illustrated by the surface contours). The molecular beams represent gas evolution under synthesis conditions while the fiery sphere highlights the formation of the pure tungsten semi-carbide phase with additional molecular beams at the top to illustrate its catalytic performance. (Source: Sinhara M. H. D. Perera)")
:quality(80)/p7i.vogel.de/wcms/26/3d/263d97f8f2797267ecf2781b56882758/0129056451v1.jpeg "A study by the Complexity Science Hub finds that AI systems are already involved in nearly one-third of newly written software code, with rapid adoption in the United States and Europe and measurable productivity gains mainly for experienced developers. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/21/03/21030cc2541c455da0769decca8d1f82/0129146048v2.jpeg "Vyon porous plastics from Porvair Sciences are the perfect material for filtration applications in the healthcare and medical device market. (Source: Porvair Sciences)")
:quality(80)/p7i.vogel.de/wcms/bd/aa/bdaae5b9d381e2471ab37f479ad43d79/0129143884v2.jpeg "The Solvent Line Monitor from Testa Analytical is a true plug-and-play addition to any HPLC system designed to detect when one or more of its pump solvent reservoirs are empty and automatically shut-off the system. (Source: Testa Analytical)")
:quality(80)/p7i.vogel.de/wcms/8f/66/8f66b8acbb3037ca8e6b320bcad1c817/0129118043v2.jpeg "The Plasmaquant 9200 series is ideal for applications in research, trace analysis and quality control. (Source: Analytik Jena )")
:quality(80)/p7i.vogel.de/wcms/66/82/66825163ab842baded640db1a484e729/0129117548v2.jpeg "Biotech Fluidics has announced the Smartsaver solvent recycling unit which is designed to recover up to 90 % of your mobile phase by redirection of the pure solvent to the solvent reservoir during isocratic HPLC. (Source: Biotech Fluidics )")
:quality(80)/p7i.vogel.de/wcms/1a/4f/1a4fe7f8b5541716ba908251738beca1/0129349759v2.jpeg "Krict’s Syngas-to-Sustainable Aviation Fuel (SAF) Conversion Facility (Source: Korea Research Institute of Chemical Technology (Krict))")
:quality(80)/p7i.vogel.de/wcms/d4/29/d429a973c6f14ced3d2eb44931669a78/0129348927v1.jpeg "Cage-like ulva biochar confined synthesis of Fe₃O₄/ZnO heterojunction nanoparticles for synergistic adsorption and photocatalytic degradation of PFOA
(Source: Hua Jing et. al.)")
:quality(80)/p7i.vogel.de/wcms/86/90/8690b8154a552da13b37f289349b1db4/0129283446v2.jpeg "Lina Pérez-Ángel holds two sediment samples whose ages are separated by about a million years. (Source: Ellen Jorgensen)")
:quality(80)/p7i.vogel.de/wcms/90/f8/90f8c3152a59205a7cac1cc182eb186b/0129209634v2.jpeg "Nitrate in drinking water linked to increased dementia risk while nitrate from vegetables is linked to a lower risk, researchers find . (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/d1/3c/d13c2ad34af600dbd360c0bb0990b922/0129045715v2.jpeg "Replacing animal products with plant-based foods helps reduce the risk of heart disease and type 2 diabetes, finds a new review by the Physicians Committee for Responsible Medicine. (Source: Pixabay)")
:quality(80)/p7i.vogel.de/wcms/e1/b3/e1b3e26d03101ba93b76b304da150c9a/0129025388v2.jpeg "The research reanalyzed data from a seminal clinical trial, led by US National Institutes of Health veteran Dr Kevin Hall, which first exposed how eating exclusively UPFs results in excessive calorie consumption and weight gain. (Source: Pixabay)")
:quality(80)/p7i.vogel.de/wcms/75/db/75db8afe45607bee750df705e22b60e9/0128938816v1.jpeg "A new academic review suggests that bamboo shoots could offer significant health benefits, including improved blood sugar control, gut health and antioxidant activity. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/85/42/85423f3382c25d1ae0ac5645e969cd36/0128898289v2.jpeg "Dr Arya Gopinath Madathil Pulikkal (left) and Asst Prof Andy Tay (right) in front of a small greenhouse containing Choy Sum plants. (Source: NUS)")
:quality(80)/p7i.vogel.de/wcms/0d/9b/0d9bcd7e41846276db862456d619edd2/0129351002v2.jpeg "A Caltech-led team has developed a way of making bubble bots with simple protein shells that can be modified by enzymes or magnetic nanoparticles for efficient drug delivery. One version the researchers has made is \"smart\" enough to direct itself to direct itself to a tumor target. (Source: Gao Lab/ Caltech)")
:quality(80)/p7i.vogel.de/wcms/1a/ee/1aee2613e1a69c73ab568ee61d354ded/0129347044v1.jpeg "The Tonks lab studied PTP1B inhibition in a mouse model of Alzheimer’s disease. When PTP1B was deleted, as shown in the bottom row, the brain’s immune cells (green) were better at engulfing harmful amyloid-β plaques (grey), as shown in the left column. (Source: Nicholas Tonks/ CSHL)")
:quality(80)/p7i.vogel.de/wcms/fe/b7/feb7e0d151036b0c2be071e958dbce3b/0129341435v2.jpeg "As youth mental health challenges have risen alongside increased social media use, researchers and policymakers have questioned whether platforms contribute to emotional distress. (Source: Pixabay)")
:quality(80)/p7i.vogel.de/wcms/88/a9/88a9b2ab395cbc322811baef39346455/0129321685v2.jpeg "Researchers have succeeded in identifying biomarkers for Parkinson’s disease in its earliest stages, before extensive brain damage has occurred. (Source: Nicola Pietro Montaldo)")
:quality(80)/images.vogel.de/vogelonline/bdb/1710600/1710675/original.jpg "Discover how to set yourself up for success when performing balance-based density determination of solids such as jewelry and precious metals. (Mettler Toledo)")
:quality(80)/images.vogel.de/vogelonline/bdb/1682500/1682579/original.jpg "The new XPR Analytical balance redesigned to meet the needs of laboratory technicians of working fast and lean. (Mettler Toledo)")
:quality(80)/images.vogel.de/vogelonline/bdb/1677000/1677080/original.jpg "Enhance your weighing accuracy, comfort and productivity with the redesigned XPR Analytical balance. (Mettler Toledo)")
:quality(80)/p7i.vogel.de/wcms/cd/60/cd60bcc03db7c695dab35b521b8a7b06/0123355178v1.jpeg "Locust outbreak in East Africa (Source: Einat Couzin-Fuchs, Inga Petelski, Yannick Günzel, Felix B. Oberhauser)")
:quality(80)/p7i.vogel.de/wcms/58/a7/58a729bc9cf95a5494530e5da74c39c2/0123850719v2.jpeg "A 3D reconstruction of a helicase interacting with DNA. The DNA is in in the central channel, while the helicase consists of six differently coloured monomers surrounding it. (Source: Kaust)")