Répertoire de liens : Systèmes physiques complexes

List of Dynamical systems
https://en.wikipedia.org/wiki/Category:Dynamical_systems
Edge state and crisis in the Pierce diode
Thermionic Emission, Field Emission, and the Transition Region
Viscous fluids coiling - SmarterEveryDay
Multiple coexisting states of liquid rope coiling
https://www.researchgate.net/publication/210222879_Multiple_coexisting_states_of_liquid_rope_coiling
Stability of Liquid Rope Coiling
https://hal.archives-ouvertes.fr/file/index/docid/129393/filename/ribeetal_text.pdf
Applications of KdV
http://users.uoa.gr/~pjioannou/nonlingrad/ion_acoustic_solitons_PRL.pdf
Apparition de mouvements oscillatoires et chaotiques dans les modèles de coopération, Pour La Science, Sept. 96
Three body problem - Scholarpedia
http://www.scholarpedia.org/article/Three_body_problem
Sur la solution de Sundman du problème des trois corps, Malte Henkel
https://arxiv.org/pdf/physics/0203001.pdf
Why do Fibonacci emerges in so many nature's spirals - Vihart
The Pierce diode with an external circuit - Oscillations about nonuniform equilibria & Chaotic behavior
http://aip.scitation.org/doi/abs/10.1063/1.858925
Swinging Atwood's machine
https://en.wikipedia.org/wiki/Swinging_Atwood%27s_machine
Paschen's law (breakdown voltage)
https://en.wikipedia.org/wiki/Paschen%27s_law
Sonoluminescence
https://en.wikipedia.org/wiki/Sonoluminescence
Single-bubble sonoluminescence
https://research.utwente.nl/en/publications/single-bubble-sonoluminescence
Blocage de cardan
https://fr.wikipedia.org/wiki/Blocage_de_cardan
Prince Rupert's Drop @130000fps - SmarterEveryDay
Solid-wave gyroscopes (HRGs)
http://www.cs.cornell.edu/~bindel/paper/yilmaz-sensors.pdf
Water drop vaporized by laser - Physics of Fluids Group University of Twente
Rattleback
https://en.wikipedia.org/wiki/Rattleback
SQUID Fundamentals (superconducting quantum interference device amplifiers), 63p
Effet électro-calorique
https://fr.wikipedia.org/wiki/Effet_électro-calorique
Physicists create time crystals
https://phys.org/news/2017-04-physicists-crystals-key-quantum-machines.html
Shape oscillating bubbles: hydrodynamics and mass transfer
Collection of collapsing bubble driven phenomena found in champagne glasses
http://www.ida.upmc.fr/~seon/paper/BubbbleChampagneReview.pdf
Cristal de temps - Melsophia
http://www.melsophia.org/2014/03/29/cristal-de-temps/
Thèse : Effets non-linéaires et effets quantiques en gravité analogue, Florent MICHEL
https://arxiv.org/pdf/1708.01825.pdf
Simulations of anti-parallel reconnection using a nonlocal heat flux closure to integrate kinetic effects in fluid models
https://phys.org/news/2017-09-team-unique-simulation-magnetic-reconnection.html
Suivre la dynamique structurale ultrarapide d’état magnétique photo-induit en pompe-sonde X
https://ipr.univ-rennes1.fr/archives/11509
Emergence and Evolution of the k Gap in Spectra of Liquid and Supercritical States (relation de dispersion dans les fluides)
Thermal delay of drop coalescence (fluid vortices due to ΔT keeps air longer between surfaces)
Thermal delay of drop coalescence - Video
Taylor cone (electrostatic deformation of capillary meniscus + jet)
https://en.wikipedia.org/wiki/Taylor_cone
Shower-curtain effect
https://en.wikipedia.org/wiki/Shower-curtain_effect
Inelastic electron tunneling spectroscopy
https://en.wikipedia.org/wiki/Inelastic_electron_tunneling_spectroscopy
Electrohydrodynamic Charge Relaxation and Interfacial PerpendicularField Instability
Deformation of liquid menisci under the action of an electric field
Rayleigh–Bénard convection
https://en.wikipedia.org/wiki/Rayleigh–Bénard_convection
Sisyphus cooling
https://en.wikipedia.org/wiki/Sisyphus_cooling
Invariance property of wave scattering through disordered media : theoretical study
Observation of mean path length invariance in light-scattering media
http://www.pourlascience.fr/ewb_pages/a/actu-les-chemins-constants-de-la-lumiere-39000.php
Propriété des quasi-critaux : structure et stabilité, conductivité thermique et électrique, dureté, adhérence, tribologie, Pour La Science, Août 96, p52
Fun with stacking blocks : the Leaning Tower of Lire
http://www.dimnp.unipi.it/guiggiani-m/AJP001107.pdf
Balls on escalator
Why do Shower Curtains Billow Inwards ?
Lightning is Complicated - Sixty Symbols
Rotating robots move collectively and self-organize
Deflection of water by static electricity : 2 different effects (charge separation if droplets, polar nature of water if stream) - Thunderf00t
Soft wetting and the Shuttleworth effect, at the crossroads between thermodynamics and mechanics
Déformation d'élastomères et mouillabilité : Surface energy of strained amorphous solids
http://www.cnrs.fr/inc/communication/direct_labos/salez3.htm
Potential enthalpic energy of water in oils exploited to control supramolecular structure
https://phys.org/news/2018-05-lone-molecules-directors-supramolecular-chemistry.html
Geometry and Elasticity of a Knitted Fabric : derivation from first principles
Long time deviations from exponential decay : For very long times, a decay process starts to compete with the inverse process.
Experimental Violation of the Exponential-Decay Law at Long Times
GHz Rotation of an Optically Trapped Glass Nanoparticle in Vacuum
https://phys.org/news/2018-07-world-fastest-rotation.html
Soft collisions in relativistic runaway electron avalanches
Rocket Triggered Lightning Research - Anomalous Strike
RREA as cause for TGFs
rrea-as-cause-for-tgfs
- Results have indicated that between 10^14 and 10^17 runaway electrons are required to produce a TGF, assuming a production altitude of 15 km and that the ratio of bremsstrahlung photons to electrons is roughly 1. According to Carlson et al. [2008], we can assume that cosmic rays produce a maximum seed population of 10^6 energetic electrons. Furthermore, we can expect an electric potential of 100 MV to be available in a large thundercloud, which would roughly correspond to 100 MV/7.3 MV = 13.9 avalanche lengths or a maximum multiplication e^13.9 ≈ 10^6 runaway electrons per seed electron. Combining this we get a multiplication of 10^12, which is 5 orders of magnitude lower than the required number of electrons from an average observed TGF produced at 15 km altitude. In addition, Dwyer [2008] made calculations on the initiation of RREAs from extensive air showers (EAS) and steady state background radiation, both mainly a product of cosmic rays. He found that neither of them is very likely to explain TGFs by its own. Thus, the high number of electrons required to produce a TGF cannot be explained by RREA multiplication alone. In response to this, two leading theories have been presented. Dwyer [2003] suggested that the feedback mechanism could provide further multiplication and thus explain the production of TGFs. Another possible solution has been presented by Celestin and Pasko [2011]. They show that seed electrons with energies on the order of 60 keV can be produced in the vicinity of the tips of lightning leaders by streamers and be further accelerated in the potential drops in front of lightning leader tips. They found that this process was capable of producing 10^17 energetic electrons.
- X-ray Emission from Thunderstorms and Lightning - Slides, Dwyer
- RREA (runaway relativistic electron avalanche) Monte Carlo simulation
  https://fr.wikipedia.org/wiki/Fichier:RREA_Monte_Carlo_simulation.png
- Modeling the relativistic runaway electron avalanche and the feedback mechanism with GEANT4
- • GEANT4 simulation results match with previous MC simulations, but only when using the GEANT4 LBE physics list (Livermore model, seems better at low energy losses)
- • Confirms the results presented by Dwyer and constrain the conditions under which the feedback mechanism may play a role (needs 48.5MV @2500kV/m and 300MV @390kV/m)
- • The ratio of bremsstrahlung photons to runaway electrons where 400kV/m < E < 2000kV/m was found to be between 1 and 0.1
- High-Energy Atmospheric Physics: Terrestrial Gamma-Ray Flashes and Related Phenomena - Dwyer et al., 2012
Much-thiner-than-λ Metasurface for Water-to-Air Sound Transmission @700Hz
http://physicsworld.com/cws/article/news/2018/jan/31/how-to-eavesdrop-on-underwater-conversations
Rocket-Triggered Lightning - American Geophysical Union
DIY UV Air Laser (N₂ Laser) - styropyro
Inside Exploding Giant Firework Shell (3200 FPS Slow Motion)
Frequency-preserved non-reciprocal acoustic propagation in a granular chain
Gravité analogue en fluides de polaritons
gravité-analogue-en-fluides-de-polaritons
- Acoustic black holes in a two-dimensional "photon fluid" in a cavity - Marino 2008
- Polariton fluids for analogue gravity physics, Jacquet et al. 2020
- Quantum analogue of a Kerr black hole and the Penrose effect in a Bose-Einstein condensate
Synchronization and self-organization (ft. Strogatz) - Veritasium
Coffee ring effect
https://en.wikipedia.org/wiki/Coffee_ring_effect
Pattern formation in Nature : Why is the Universe not Boring ? - Stephen Morris, 2013