Physics and applications of dusty plasmas: The Perspectives 2023

J. Beckers; J. Berndt; D. Block; M. Bonitz; P. J. Bruggeman; L. Couëdel; G. L. Delzanno; Y. Feng; R. Gopalakrishnan; F. Greiner; P. Hartmann; M. Horányi; H. Kersten; C. A. Knapek; U. Konopka; U. Kortshagen; E. G. Kostadinova; E. Kovačević; S. I. Krasheninnikov; I. Mann; D. Mariotti; L. S. Matthews; A. Melzer; M. Mikikian; V. Nosenko; M. Y. Pustylnik; S. Ratynskaia; R. M. Sankaran; V. Schneider; E. J. Thimsen; E. Thomas; H. M. Thomas; P. Tolias; M. van de Kerkhof

doi:10.1063/5.0168088

Physics and applications of dusty plasmas: The Perspectives 2023

J. Beckers (Corresponding author), J. Berndt, D. Block, M. Bonitz, P. J. Bruggeman, L. Couëdel, G. L. Delzanno, Y. Feng, R. Gopalakrishnan, F. Greiner, P. Hartmann, M. Horányi, H. Kersten, C. A. Knapek, U. Konopka, U. Kortshagen, E. G. Kostadinova, E. Kovačević, S. I. Krasheninnikov, I. MannD. Mariotti, L. S. Matthews, A. Melzer, M. Mikikian, V. Nosenko, M. Y. Pustylnik, S. Ratynskaia, R. M. Sankaran, V. Schneider, E. J. Thimsen, E. Thomas, H. M. Thomas, P. Tolias, M. van de Kerkhof

Research output: Contribution to journal › Short survey › peer-review

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Abstract

Dusty plasmas are electrically quasi-neutral media that, along with electrons, ions, neutral gas, radiation, and electric and/or magnetic fields, also contain solid or liquid particles with sizes ranging from a few nanometers to a few micrometers. These media can be found in many natural environments as well as in various laboratory setups and industrial applications. As a separate branch of plasma physics, the field of dusty plasma physics was born in the beginning of 1990s at the intersection of the interests of the communities investigating astrophysical and technological plasmas. An additional boost to the development of the field was given by the discovery of plasma crystals leading to a series of microgravity experiments of which the purpose was to investigate generic phenomena in condensed matter physics using strongly coupled complex (dusty) plasmas as model systems. Finally, the field has gained an increasing amount of attention due to its inevitable connection to the development of novel applications ranging from the synthesis of functional nanoparticles to nuclear fusion and from particle sensing and diagnostics to nano-contamination control. The purpose of the present perspectives paper is to identify promising new developments and research directions for the field. As such, dusty plasmas are considered in their entire variety: from classical low-pressure noble-gas dusty discharges to atmospheric pressure plasmas with aerosols and from rarefied astrophysical plasmas to dense plasmas in nuclear fusion devices. Both fundamental and application aspects are covered.

Original language	English
Article number	120601
Journal	Physics of Plasmas
Volume	30
Issue number	12
DOIs	https://doi.org/10.1063/5.0168088
Publication status	Published - Dec 2023

Bibliographical note

Publisher Copyright:
© 2023 Author(s).

Funding

Nemzeti Kutatási Fejlesztési és Innovációs Hivatal Acronym: NKFI Funding numbers: K134462 Multidisciplinary University Research Initiative Acronym: MURI Funding numbers: W911NF-18-1-0240 Army Research Office (ARO) Acronym: ARO Funding numbers: W911NF-23-2-0013 Funding numbers: W911NF-20-1-0105 Laboratory Directed Research and Development Program of Los Alamos National Laboratory Funding numbers: 20230668ER

Funders	Funder number
Nederlandse Organisatie voor Wetenschappelijk Onderzoek	15710
European Union's Horizon 2020 - Research and Innovation Framework Programme	766894
National Science Foundation	PHYS 1903151, NSF-1903450, NSF-2308742, OIA-2148653
U.S. Department of Energy	89233218CNA000001, DE-SC0022242, SC-0019176, DE-SC-0020232, DE-SC0018202, DE-SC0021146
Air Force Office of Scientific Research (AFOSR)	FA9550-19-1-0088
National Nuclear Security Administration
Natural Sciences and Engineering Research Council of Canada	RGPIN-2019-04333
Engineering and Physical Sciences Research Council	EP/V055232/1
European Commission	101052200-EUROfusion
Deutsche Forschungsgemeinschaft	BL555 3-2, BL555 4-2
National Natural Science Foundation of China	12175159
Norges Forskningsråd	NFR 240065, NFR 275503

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Beckers, J., Berndt, J., Block, D., Bonitz, M., Bruggeman, P. J., Couëdel, L., Delzanno, G. L., Feng, Y., Gopalakrishnan, R., Greiner, F., Hartmann, P., Horányi, M., Kersten, H., Knapek, C. A., Konopka, U., Kortshagen, U., Kostadinova, E. G., Kovačević, E., Krasheninnikov, S. I., ... van de Kerkhof, M. (2023). Physics and applications of dusty plasmas: The Perspectives 2023. Physics of Plasmas, 30(12), Article 120601. https://doi.org/10.1063/5.0168088

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title = "Physics and applications of dusty plasmas: The Perspectives 2023",

abstract = "Dusty plasmas are electrically quasi-neutral media that, along with electrons, ions, neutral gas, radiation, and electric and/or magnetic fields, also contain solid or liquid particles with sizes ranging from a few nanometers to a few micrometers. These media can be found in many natural environments as well as in various laboratory setups and industrial applications. As a separate branch of plasma physics, the field of dusty plasma physics was born in the beginning of 1990s at the intersection of the interests of the communities investigating astrophysical and technological plasmas. An additional boost to the development of the field was given by the discovery of plasma crystals leading to a series of microgravity experiments of which the purpose was to investigate generic phenomena in condensed matter physics using strongly coupled complex (dusty) plasmas as model systems. Finally, the field has gained an increasing amount of attention due to its inevitable connection to the development of novel applications ranging from the synthesis of functional nanoparticles to nuclear fusion and from particle sensing and diagnostics to nano-contamination control. The purpose of the present perspectives paper is to identify promising new developments and research directions for the field. As such, dusty plasmas are considered in their entire variety: from classical low-pressure noble-gas dusty discharges to atmospheric pressure plasmas with aerosols and from rarefied astrophysical plasmas to dense plasmas in nuclear fusion devices. Both fundamental and application aspects are covered.",

author = "J. Beckers and J. Berndt and D. Block and M. Bonitz and Bruggeman, {P. J.} and L. Cou{\"e}del and Delzanno, {G. L.} and Y. Feng and R. Gopalakrishnan and F. Greiner and P. Hartmann and M. Hor{\'a}nyi and H. Kersten and Knapek, {C. A.} and U. Konopka and U. Kortshagen and Kostadinova, {E. G.} and E. Kova{\v c}evi{\'c} and Krasheninnikov, {S. I.} and I. Mann and D. Mariotti and Matthews, {L. S.} and A. Melzer and M. Mikikian and V. Nosenko and Pustylnik, {M. Y.} and S. Ratynskaia and Sankaran, {R. M.} and V. Schneider and Thimsen, {E. J.} and E. Thomas and Thomas, {H. M.} and P. Tolias and {van de Kerkhof}, M.",

note = "Publisher Copyright: {\textcopyright} 2023 Author(s).",

year = "2023",

month = dec,

doi = "10.1063/5.0168088",

language = "English",

volume = "30",

journal = "Physics of Plasmas",

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Beckers, J, Berndt, J, Block, D, Bonitz, M, Bruggeman, PJ, Couëdel, L, Delzanno, GL, Feng, Y, Gopalakrishnan, R, Greiner, F, Hartmann, P, Horányi, M, Kersten, H, Knapek, CA, Konopka, U, Kortshagen, U, Kostadinova, EG, Kovačević, E, Krasheninnikov, SI, Mann, I, Mariotti, D, Matthews, LS, Melzer, A, Mikikian, M, Nosenko, V, Pustylnik, MY, Ratynskaia, S, Sankaran, RM, Schneider, V, Thimsen, EJ, Thomas, E, Thomas, HM, Tolias, P & van de Kerkhof, M 2023, 'Physics and applications of dusty plasmas: The Perspectives 2023', Physics of Plasmas, vol. 30, no. 12, 120601. https://doi.org/10.1063/5.0168088

TY - JOUR

T1 - Physics and applications of dusty plasmas

T2 - The Perspectives 2023

AU - Beckers, J.

AU - Berndt, J.

AU - Block, D.

AU - Bonitz, M.

AU - Bruggeman, P. J.

AU - Couëdel, L.

AU - Delzanno, G. L.

AU - Feng, Y.

AU - Gopalakrishnan, R.

AU - Greiner, F.

AU - Hartmann, P.

AU - Horányi, M.

AU - Kersten, H.

AU - Knapek, C. A.

AU - Konopka, U.

AU - Kortshagen, U.

AU - Kostadinova, E. G.

AU - Kovačević, E.

AU - Krasheninnikov, S. I.

AU - Mann, I.

AU - Mariotti, D.

AU - Matthews, L. S.

AU - Melzer, A.

AU - Mikikian, M.

AU - Nosenko, V.

AU - Pustylnik, M. Y.

AU - Ratynskaia, S.

AU - Sankaran, R. M.

AU - Schneider, V.

AU - Thimsen, E. J.

AU - Thomas, E.

AU - Thomas, H. M.

AU - Tolias, P.

AU - van de Kerkhof, M.

PY - 2023/12

Y1 - 2023/12

N2 - Dusty plasmas are electrically quasi-neutral media that, along with electrons, ions, neutral gas, radiation, and electric and/or magnetic fields, also contain solid or liquid particles with sizes ranging from a few nanometers to a few micrometers. These media can be found in many natural environments as well as in various laboratory setups and industrial applications. As a separate branch of plasma physics, the field of dusty plasma physics was born in the beginning of 1990s at the intersection of the interests of the communities investigating astrophysical and technological plasmas. An additional boost to the development of the field was given by the discovery of plasma crystals leading to a series of microgravity experiments of which the purpose was to investigate generic phenomena in condensed matter physics using strongly coupled complex (dusty) plasmas as model systems. Finally, the field has gained an increasing amount of attention due to its inevitable connection to the development of novel applications ranging from the synthesis of functional nanoparticles to nuclear fusion and from particle sensing and diagnostics to nano-contamination control. The purpose of the present perspectives paper is to identify promising new developments and research directions for the field. As such, dusty plasmas are considered in their entire variety: from classical low-pressure noble-gas dusty discharges to atmospheric pressure plasmas with aerosols and from rarefied astrophysical plasmas to dense plasmas in nuclear fusion devices. Both fundamental and application aspects are covered.

AB - Dusty plasmas are electrically quasi-neutral media that, along with electrons, ions, neutral gas, radiation, and electric and/or magnetic fields, also contain solid or liquid particles with sizes ranging from a few nanometers to a few micrometers. These media can be found in many natural environments as well as in various laboratory setups and industrial applications. As a separate branch of plasma physics, the field of dusty plasma physics was born in the beginning of 1990s at the intersection of the interests of the communities investigating astrophysical and technological plasmas. An additional boost to the development of the field was given by the discovery of plasma crystals leading to a series of microgravity experiments of which the purpose was to investigate generic phenomena in condensed matter physics using strongly coupled complex (dusty) plasmas as model systems. Finally, the field has gained an increasing amount of attention due to its inevitable connection to the development of novel applications ranging from the synthesis of functional nanoparticles to nuclear fusion and from particle sensing and diagnostics to nano-contamination control. The purpose of the present perspectives paper is to identify promising new developments and research directions for the field. As such, dusty plasmas are considered in their entire variety: from classical low-pressure noble-gas dusty discharges to atmospheric pressure plasmas with aerosols and from rarefied astrophysical plasmas to dense plasmas in nuclear fusion devices. Both fundamental and application aspects are covered.

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U2 - 10.1063/5.0168088

DO - 10.1063/5.0168088

M3 - Short survey

AN - SCOPUS:85179626974

SN - 1070-664X

VL - 30

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 12

M1 - 120601

ER -

Physics and applications of dusty plasmas: The Perspectives 2023

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