List of quasiparticles

This is a list of quasiparticles.

Quasiparticles
Quasiparticle	Signification	Underlying particles
Anyon	A type of quasiparticle that occurs only in two-dimensional systems, with properties much less restricted than fermions and bosons.
Bion	A bound state of solitons, named for Born-Infeld model	soliton
Bipolaron	A bound pair of two polarons	polaron (electron, phonon)
Bogoliubon	Broken Cooper pair	electron, hole
^[1]	An elementary configurational excitation in an amorphous material which involves breaking of a chemical bond
	A localized collective excitation associated with a dislocation in crystalline solids.^[2] It emerges from the quantization of the lattice displacement field of a classical dislocation
Dropleton	The first known quasiparticle that behaves like a liquid^[3]
Electron quasiparticle	An electron as affected by the other forces and interactions in the solid	electron
Electron hole (hole)	A lack of electron in a valence band	electron, cation
Exciton	A bound state of an electron and a hole	electron, hole
Fracton	A collective quantized vibration on a substrate with a fractal structure.
Fracton (subdimensional particle)	An emergent quasiparticle excitation that is immobile when in isolation.
Holon (chargon)	A quasi-particle resulting from electron spin-charge separation
Leviton	A collective excitation of a single electron within a metal
Magnon	A of electron spins in a material
Majorana fermion	A quasiparticle equal to its own antiparticle, emerging as a midgap state in certain superconductors
Nematicon	A soliton in nematic liquid crystal media
Orbiton^[4]	A quasiparticle resulting from electron spin-orbital separation
Oscillon	A soliton-like single wave in vibrating media
Phason	Vibrational modes in a quasicrystal associated with atomic rearrangements
	A theoretical quasiparticle which is a hybridization of a localized, long-living phonon and a matter excitation^[5]
Phonon	Vibrational modes in a crystal lattice associated with atomic shifts
Plasmaron	A quasiparticle emerging from the coupling between a plasmon and a hole
Plasmon	A coherent excitation of a plasma
Polaron	A moving charged quasiparticle that is surrounded by ions in a material	electron, phonon
Polariton	A mixture of photon with other quasiparticles	photon, optical phonon
Roton	Elementary excitation in superfluid helium-4
Soliton	A self-reinforcing solitary excitation wave
Spinon	A quasiparticle produced as a result of electron spin-charge separation that can form both quantum spin liquid and strongly correlated quantum spin liquid
Trion	A coherent excitation of three quasiparticles (two holes and one electron or two electrons and one hole)
	A localized excitation corresponding to wrinkles in a constrained two dimensional system^[6]^[7]

References[]

^ Angell, C.A.; Rao, K.J. (1972). "Configurational excitations in condensed matter, and "bond lattice" model for the liquid-glass transition". J. Chem. Phys. 57 (1): 470–481. Bibcode:1972JChPh..57..470A. doi:10.1063/1.1677987.
^ M. Li, Y. Tsurimaki, Q. Meng, N. Andrejevic, Y. Zhu, G. D. Mahan, and G. Chen, "Theory of electron-phonon-dislon interacting system – toward a quantized theory of dislocations", New J. Phys. (2017) http://iopscience.iop.org/article/10.1088/1367-2630/aaa383/meta
^ Clara Moskowitz (26 February 2014). "Meet the Dropleton—a "Quantum Droplet" That Acts Like a Liquid". Scientific American. Retrieved 26 February 2014.
^ J. Schlappa, K. Wohlfeld, K. J. Zhou, M. Mourigal, M. W. Haverkort, V. N. Strocov, L. Hozoi, C. Monney, S. Nishimoto, S. Singh, A. Revcolevschi, J.-S. Caux, L. Patthey, H. M. Rønnow, J. van den Brink, and T. Schmitt (2012-04-18). "Spin–orbital separation in the quasi-one-dimensional Mott insulator Sr2CuO3". Nature. 485 (7396): 82–5. arXiv:1205.1954. Bibcode:2012Natur.485...82S. doi:10.1038/nature10974. PMID 22522933.CS1 maint: uses authors parameter (link)
^ "Introducing the Phoniton: a tool for controlling sound at the quantum level". University of Maryland Department of Physics. Retrieved 26 Feb 2014.
^ Johnson, Hamish. "Introducing the 'wrinklon'". Physics World. Retrieved 26 Feb 2014.
^ Meng, Lan; Su, Ying; Geng, Dechao; Yu, Gui; Liu, Yunqi; Dou, Rui-Fen; Nie, Jia-Cai; He, Lin (2013). "Hierarchy of graphene wrinkles induced by thermal strain engineering". Applied Physics Letters. 103 (25): 251610. arXiv:1306.0171. Bibcode:2013ApPhL.103y1610M. doi:10.1063/1.4857115.

[1] Angell, C.A.; Rao, K.J. (1972). "Configurational excitations in condensed matter, and "bond lattice" model for the liquid-glass transition". J. Chem. Phys. 57 (1): 470–481. Bibcode:1972JChPh..57..470A. doi:10.1063/1.1677987.

[2] M. Li, Y. Tsurimaki, Q. Meng, N. Andrejevic, Y. Zhu, G. D. Mahan, and G. Chen, "Theory of electron-phonon-dislon interacting system – toward a quantized theory of dislocations", New J. Phys. (2017) http://iopscience.iop.org/article/10.1088/1367-2630/aaa383/meta

[3] Clara Moskowitz (26 February 2014). "Meet the Dropleton—a "Quantum Droplet" That Acts Like a Liquid". Scientific American. Retrieved 26 February 2014.

[4] J. Schlappa, K. Wohlfeld, K. J. Zhou, M. Mourigal, M. W. Haverkort, V. N. Strocov, L. Hozoi, C. Monney, S. Nishimoto, S. Singh, A. Revcolevschi, J.-S. Caux, L. Patthey, H. M. Rønnow, J. van den Brink, and T. Schmitt (2012-04-18). "Spin–orbital separation in the quasi-one-dimensional Mott insulator Sr2CuO3". Nature. 485 (7396): 82–5. arXiv:1205.1954. Bibcode:2012Natur.485...82S. doi:10.1038/nature10974. PMID 22522933.CS1 maint: uses authors parameter (link)

[5] "Introducing the Phoniton: a tool for controlling sound at the quantum level". University of Maryland Department of Physics. Retrieved 26 Feb 2014.

[6] Johnson, Hamish. "Introducing the 'wrinklon'". Physics World. Retrieved 26 Feb 2014.

[wrinklon-elsv-7] Meng, Lan; Su, Ying; Geng, Dechao; Yu, Gui; Liu, Yunqi; Dou, Rui-Fen; Nie, Jia-Cai; He, Lin (2013). "Hierarchy of graphene wrinkles induced by thermal strain engineering". Applied Physics Letters. 103 (25): 251610. arXiv:1306.0171. Bibcode:2013ApPhL.103y1610M. doi:10.1063/1.4857115.

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