The 2020 motile active matter roadmap

Gerhard Gompper; Roland G Winkler; Thomas Speck; Alexandre Solon; Cesare Nardini; Fernando Peruani; Hartmut Löwen; Ramin Golestanian; U Benjamin Kaupp; Luis Alvarez; Thomas Kiørboe; Eric Lauga; Wilson C K Poon; Antonio DeSimone; Santiago Muiños-Landin; Alexander Fischer; Nicola A Söker; Frank Cichos; Raymond Kapral; Pierre Gaspard; Marisol Ripoll; Francesc Sagues; Amin Doostmohammadi; Julia M Yeomans; Igor S Aranson; Clemens Bechinger; Holger Stark; Charlotte K Hemelrijk; François J Nedelec; Trinish Sarkar; Thibault Aryaksama; Mathilde Lacroix; Guillaume Duclos; Victor Yashunsky; Pascal Silberzan; Marino Arroyo; Sohan Kale

doi:10.1088/1361-648X/ab6348

The 2020 motile active matter roadmap

Gerhard Gompper, Roland G Winkler, Thomas Speck, Alexandre Solon, Cesare Nardini, Fernando Peruani, Hartmut Löwen, Ramin Golestanian, U Benjamin Kaupp, Luis Alvarez, Thomas Kiørboe, Eric Lauga, Wilson C K Poon, Antonio DeSimone, Santiago Muiños-Landin, Alexander Fischer, Nicola A Söker, Frank Cichos, Raymond Kapral, Pierre GaspardMarisol Ripoll, Francesc Sagues, Amin Doostmohammadi, Julia M Yeomans, Igor S Aranson, Clemens Bechinger, Holger Stark, Charlotte K Hemelrijk, François J Nedelec, Trinish Sarkar, Thibault Aryaksama, Mathilde Lacroix, Guillaume Duclos, Victor Yashunsky, Pascal Silberzan, Marino Arroyo, Sohan Kale

Hemelrijk group - Self-Organisation of Social Systems

Onderzoeksoutput › Academic › peer review

358 Citaten (Scopus)

272 Downloads (Pure)

Samenvatting

Activity and autonomous motion are fundamental in living and engineering systems. This has stimulated the new field of 'active matter' in recent years, which focuses on the physical aspects of propulsion mechanisms, and on motility-induced emergent collective behavior of a larger number of identical agents. The scale of agents ranges from nanomotors and microswimmers, to cells, fish, birds, and people. Inspired by biological microswimmers, various designs of autonomous synthetic nano- and micromachines have been proposed. Such machines provide the basis for multifunctional, highly responsive, intelligent (artificial) active materials, which exhibit emergent behavior and the ability to perform tasks in response to external stimuli. A major challenge for understanding and designing active matter is their inherent nonequilibrium nature due to persistent energy consumption, which invalidates equilibrium concepts such as free energy, detailed balance, and time-reversal symmetry. Unraveling, predicting, and controlling the behavior of active matter is a truly interdisciplinary endeavor at the interface of biology, chemistry, ecology, engineering, mathematics, and physics. The vast complexity of phenomena and mechanisms involved in the self-organization and dynamics of motile active matter comprises a major challenge. Hence, to advance, and eventually reach a comprehensive understanding, this important research area requires a concerted, synergetic approach of the various disciplines. The 2020 motile active matter roadmap of Journal of Physics: Condensed Matter addresses the current state of the art of the field and provides guidance for both students as well as established scientists in their efforts to advance this fascinating area.

Originele taal-2	English
Artikelnummer	193001
Aantal pagina's	67
Tijdschrift	Journal of Physics-Condensed Matter
Volume	32
Nummer van het tijdschrift	19
Vroegere onlinedatum	14-feb.-2020
DOI's	https://doi.org/10.1088/1361-648X/ab6348
Status	Published - 8-mei-2020

Toegang tot document

10.1088/1361-648X/ab6348Licentie: CC BY

The 2020 motile active matter roadmapFinal publisher's version, 12,7 MBLicentie: CC BY

Handle.net

Permanente koppeling

Citeer dit

Gompper, G., Winkler, R. G., Speck, T., Solon, A., Nardini, C., Peruani, F., Löwen, H., Golestanian, R., Kaupp, U. B., Alvarez, L., Kiørboe, T., Lauga, E., Poon, W. C. K., DeSimone, A., Muiños-Landin, S., Fischer, A., Söker, N. A., Cichos, F., Kapral, R., ... Kale, S. (2020). The 2020 motile active matter roadmap. Journal of Physics-Condensed Matter, 32(19), Artikel 193001. https://doi.org/10.1088/1361-648X/ab6348

@article{a0a1d3f271ae4899b3cb4a7b21874766,

title = "The 2020 motile active matter roadmap",

abstract = "Activity and autonomous motion are fundamental in living and engineering systems. This has stimulated the new field of 'active matter' in recent years, which focuses on the physical aspects of propulsion mechanisms, and on motility-induced emergent collective behavior of a larger number of identical agents. The scale of agents ranges from nanomotors and microswimmers, to cells, fish, birds, and people. Inspired by biological microswimmers, various designs of autonomous synthetic nano- and micromachines have been proposed. Such machines provide the basis for multifunctional, highly responsive, intelligent (artificial) active materials, which exhibit emergent behavior and the ability to perform tasks in response to external stimuli. A major challenge for understanding and designing active matter is their inherent nonequilibrium nature due to persistent energy consumption, which invalidates equilibrium concepts such as free energy, detailed balance, and time-reversal symmetry. Unraveling, predicting, and controlling the behavior of active matter is a truly interdisciplinary endeavor at the interface of biology, chemistry, ecology, engineering, mathematics, and physics. The vast complexity of phenomena and mechanisms involved in the self-organization and dynamics of motile active matter comprises a major challenge. Hence, to advance, and eventually reach a comprehensive understanding, this important research area requires a concerted, synergetic approach of the various disciplines. The 2020 motile active matter roadmap of Journal of Physics: Condensed Matter addresses the current state of the art of the field and provides guidance for both students as well as established scientists in their efforts to advance this fascinating area.",

author = "Gerhard Gompper and Winkler, {Roland G} and Thomas Speck and Alexandre Solon and Cesare Nardini and Fernando Peruani and Hartmut L{\"o}wen and Ramin Golestanian and Kaupp, {U Benjamin} and Luis Alvarez and Thomas Ki{\o}rboe and Eric Lauga and Poon, {Wilson C K} and Antonio DeSimone and Santiago Mui{\~n}os-Landin and Alexander Fischer and S{\"o}ker, {Nicola A} and Frank Cichos and Raymond Kapral and Pierre Gaspard and Marisol Ripoll and Francesc Sagues and Amin Doostmohammadi and Yeomans, {Julia M} and Aranson, {Igor S} and Clemens Bechinger and Holger Stark and Hemelrijk, {Charlotte K} and Nedelec, {Fran{\c c}ois J} and Trinish Sarkar and Thibault Aryaksama and Mathilde Lacroix and Guillaume Duclos and Victor Yashunsky and Pascal Silberzan and Marino Arroyo and Sohan Kale",

year = "2020",

month = may,

day = "8",

doi = "10.1088/1361-648X/ab6348",

language = "English",

volume = "32",

journal = "Journal of Physics-Condensed Matter",

issn = "0953-8984",

publisher = "IoP Publishing",

number = "19",

}

Gompper, G, Winkler, RG, Speck, T, Solon, A, Nardini, C, Peruani, F, Löwen, H, Golestanian, R, Kaupp, UB, Alvarez, L, Kiørboe, T, Lauga, E, Poon, WCK, DeSimone, A, Muiños-Landin, S, Fischer, A, Söker, NA, Cichos, F, Kapral, R, Gaspard, P, Ripoll, M, Sagues, F, Doostmohammadi, A, Yeomans, JM, Aranson, IS, Bechinger, C, Stark, H, Hemelrijk, CK, Nedelec, FJ, Sarkar, T, Aryaksama, T, Lacroix, M, Duclos, G, Yashunsky, V, Silberzan, P, Arroyo, M & Kale, S 2020, 'The 2020 motile active matter roadmap', Journal of Physics-Condensed Matter, vol. 32, nr. 19, 193001. https://doi.org/10.1088/1361-648X/ab6348

TY - JOUR

T1 - The 2020 motile active matter roadmap

AU - Gompper, Gerhard

AU - Winkler, Roland G

AU - Speck, Thomas

AU - Solon, Alexandre

AU - Nardini, Cesare

AU - Peruani, Fernando

AU - Löwen, Hartmut

AU - Golestanian, Ramin

AU - Kaupp, U Benjamin

AU - Alvarez, Luis

AU - Kiørboe, Thomas

AU - Lauga, Eric

AU - Poon, Wilson C K

AU - DeSimone, Antonio

AU - Muiños-Landin, Santiago

AU - Fischer, Alexander

AU - Söker, Nicola A

AU - Cichos, Frank

AU - Kapral, Raymond

AU - Gaspard, Pierre

AU - Ripoll, Marisol

AU - Sagues, Francesc

AU - Doostmohammadi, Amin

AU - Yeomans, Julia M

AU - Aranson, Igor S

AU - Bechinger, Clemens

AU - Stark, Holger

AU - Hemelrijk, Charlotte K

AU - Nedelec, François J

AU - Sarkar, Trinish

AU - Aryaksama, Thibault

AU - Lacroix, Mathilde

AU - Duclos, Guillaume

AU - Yashunsky, Victor

AU - Silberzan, Pascal

AU - Arroyo, Marino

AU - Kale, Sohan

PY - 2020/5/8

Y1 - 2020/5/8

N2 - Activity and autonomous motion are fundamental in living and engineering systems. This has stimulated the new field of 'active matter' in recent years, which focuses on the physical aspects of propulsion mechanisms, and on motility-induced emergent collective behavior of a larger number of identical agents. The scale of agents ranges from nanomotors and microswimmers, to cells, fish, birds, and people. Inspired by biological microswimmers, various designs of autonomous synthetic nano- and micromachines have been proposed. Such machines provide the basis for multifunctional, highly responsive, intelligent (artificial) active materials, which exhibit emergent behavior and the ability to perform tasks in response to external stimuli. A major challenge for understanding and designing active matter is their inherent nonequilibrium nature due to persistent energy consumption, which invalidates equilibrium concepts such as free energy, detailed balance, and time-reversal symmetry. Unraveling, predicting, and controlling the behavior of active matter is a truly interdisciplinary endeavor at the interface of biology, chemistry, ecology, engineering, mathematics, and physics. The vast complexity of phenomena and mechanisms involved in the self-organization and dynamics of motile active matter comprises a major challenge. Hence, to advance, and eventually reach a comprehensive understanding, this important research area requires a concerted, synergetic approach of the various disciplines. The 2020 motile active matter roadmap of Journal of Physics: Condensed Matter addresses the current state of the art of the field and provides guidance for both students as well as established scientists in their efforts to advance this fascinating area.

AB - Activity and autonomous motion are fundamental in living and engineering systems. This has stimulated the new field of 'active matter' in recent years, which focuses on the physical aspects of propulsion mechanisms, and on motility-induced emergent collective behavior of a larger number of identical agents. The scale of agents ranges from nanomotors and microswimmers, to cells, fish, birds, and people. Inspired by biological microswimmers, various designs of autonomous synthetic nano- and micromachines have been proposed. Such machines provide the basis for multifunctional, highly responsive, intelligent (artificial) active materials, which exhibit emergent behavior and the ability to perform tasks in response to external stimuli. A major challenge for understanding and designing active matter is their inherent nonequilibrium nature due to persistent energy consumption, which invalidates equilibrium concepts such as free energy, detailed balance, and time-reversal symmetry. Unraveling, predicting, and controlling the behavior of active matter is a truly interdisciplinary endeavor at the interface of biology, chemistry, ecology, engineering, mathematics, and physics. The vast complexity of phenomena and mechanisms involved in the self-organization and dynamics of motile active matter comprises a major challenge. Hence, to advance, and eventually reach a comprehensive understanding, this important research area requires a concerted, synergetic approach of the various disciplines. The 2020 motile active matter roadmap of Journal of Physics: Condensed Matter addresses the current state of the art of the field and provides guidance for both students as well as established scientists in their efforts to advance this fascinating area.

U2 - 10.1088/1361-648X/ab6348

DO - 10.1088/1361-648X/ab6348

M3 - Article

C2 - 32058979

SN - 0953-8984

VL - 32

JO - Journal of Physics-Condensed Matter

JF - Journal of Physics-Condensed Matter

IS - 19

M1 - 193001

ER -

The 2020 motile active matter roadmap

Samenvatting

Toegang tot document

Handle.net

Vingerafdruk

Citeer dit