2024定業
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掲峠財ダイナミクスセミナ`
v處祭祇 岷侑 (|奨寄僥 寄僥垪垢僥狼冩梢親 晒僥伏凋垢僥好 焼小冩梢片)
}兆 ゴムのw叢M婢吉について
侭 栂措溺徨寄僥尖僥何仟B1206縮片
晩r 2024定10埖30晩邦10:40~12:10
古勣
掲峠財ダイナミクスセミナ`
v處Jose BICO (ESPCI,Paris)
}兆 Two fingering instabilities: Marangoni flowers and adhesion fronts
侭 栂措溺徨寄僥尖僥何CC141縮片
晩r 2024定9埖5晩直16:30~18:00
古勣
Depositing a droplet of pure water on a bath of sunflower oil is generally a frustrating experience as it leads to a steady liquid lens.
However, if water is replaced by a mixture alcohol and water, the droplet spreads and then spontaneously fragments into a myriad of minute droplets.
What is the origin of this spectacular change of shape?
Although many engineering applications rely on adhering surfaces, studies on the propagation of an adhesion front are rather scarce.
We will consider a model configuration where two plates each coated with a layer of viscous liquid are brought in contact. Surprisingly the front quickly destabilizes into fingers.
What may be the mechanism of this instability?
掲峠財ダイナミクスセミナ`
晩r5埖14晩13rより
侭中(栂措溺徨寄僥B1206縮片)
スケジュ`ル
*13:00~14:30 Lucas Goehring 箆
14:30~15:00 30蛍俚蹶
*15:00~16:30 Bokusui Nakayama 箆
v處Lucas Goehring 箆 (Nottingham Trent University)
}兆 Stability and dynamics of convection in dry salt lakes
古勣
From fairy circles to patterned ground and columnar joints, natural patterns spontaneously appear in many complex geophysical settings.
Here, I will discuss the origins of polygonally patterned crusts of salt playa and salt pans.
These beautifully regular features, approximately a meter in diameter, are found worldwide and are fundamentally important to the transport of salt and dust in arid regions.
I will show how these patterns are consistent with the surface expression of buoyancy-driven convection in the porous soil beneath a salt crust.
By combining quantitative results from direct field observations, analogue experiments and numerical simulations,
I will show how salt polygons can form from such a convective instability, as well as how their characteristic size emerges.
掲峠財ダイナミクスセミナ`
v處Bokusui Nakayama(嶄表 珍邦) 箆 (Kyoto University)
}兆 Stigmergy in an Active Colloidal System
古勣
Some species complete tasks by using indirect interaction with pheromone signaling.
This class of communication strategies, in which agents interact with each other via shared memory remaining on the platform, is called ^stigmergy ̄.
Since stigmergy plays an essential role in swarm intelligence that provides us with powerful algorithms, stigmergy became a much more attractive topic in many research fields including active matter physics.
Here, we introduced stigmergy-like interaction into an active colloidal system by utilizing a phase-change material (PCM) that has binary states (amorphous and crystalline phase).
In this system, we placed a PCM as an active colloid platform that can memorize the paths formed by the particles.
This behavior is similar to the pheromone deposition process that can be seen in ants swarm.
Also, we capped a PCM film on a colloid to define the state of individual agents.
Like an ant changes its response to pheromones depending on its state, the active colloids also change their behavior according to the cap¨s phase.
鹿嶄vx
v處塞戎 學伏 箆(|奨寄僥 r僥伏凋親僥冩梢親)
}兆 バイオミメティクス秘T
侭 栂措溺徨寄僥尖僥何CC141縮片
晩r 2024定8埖28晩邦~30晩┰陦10:40~17:00
古勣
云vxでは、伏麗そのものや伏麗が恬り竃すMの夛とC嬬┐箸に薦僥議C
嬬とのvSについて、麗尖僥議な泣をもとに深賀を婢_する。また、伏凋F
鵑寮軆發ら垢僥議鮄辰砲弔覆欧詈峽┐任△襯丱ぅミメティクス伏悶ケ垢
僥の深え圭を峰べ、撹孔箭をい欧襪箸箸發法▲丱ぅミメティクスが仟たな麗
尖僥議アプロ`チとなりうることを幣す。
掲峠財ダイナミクスセミナ`
v處塞戎 學伏 箆(|奨寄僥 r僥伏凋親僥冩梢親)
}兆 仇すべりF鵑哩vするgY議?尖議アプロ`チ
侭 栂措溺徨寄僥尖僥何CC141縮片
晩r 2024定8埖29晩直16:00~
古勣
仇すべりは、弍中の匯何あるいは畠何が、仇和邦の唹や嶷薦によって弍中和圭に卞咾垢覽愬鮨苫КF鵑任△襦
除定、仇寳や裟嚏の紗に育ってlkしており、その契峭やk伏嚠yは嶷勣なn}となっている。云v處では、仇すべりF鵑哩vして函りMんできた厘?の冩梢を嶄伉に、參和の}をB初する。
`頚Zを育う頚悶狼における彫価薦宑とせん僅。の蕉壓晒 [1]
`送悶を廣秘した頚悶狼のクリ`プと詰堀互堀すべり獺卞 [2]
`送悶で才した頚悶におけるジャミング泣除因の械レオロジ` [3]
いずれの並箭においても、その辛晒と尖による峰をセットにした冩梢返隈をm喘している。v處では、その嶷勣來やn}についてもh苧を佩いたい。
[1] C. Chang, H. Noda, Y. Hamada, C. Huang, T. Ma, G. Wang, TY,
Comminution-induced Transient Frictional Behavior in Sheared Granular
Halite, under review.
[2] C. Chang, H. Noda, Q. Xu, D. Huang, TY, Slow-to-fast Transition and
Shear Localization in Accelerating Creep of Clayey Soil, under review.
[3] C. Chang, K. Ohno, TY, in preparation.
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 栂措溺徨寄僥,
尖僥何方麗親僥親, 掲峠財ダイナミクス冩梢片
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