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[[File:Phonon polaritons.svg| |
[[File:Phonon polaritons.svg|thumb|250px|[[磷化鎵]]中声子-电磁极化子的[[色散关系]]。红线为未耦合的声子及光子的色散关系;黑线为其耦合(自上而下:高能态电磁极化子、縱光学声子、低能态电磁极化子)]] |
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'''电磁极化子'''是一种[[玻色子]][[準粒子]](不应与[[极子]],一种[[费米子]][[準粒子]]混淆)。它是由[[电磁波]]之间的强烈[[耦合 (物理学)|耦合]]以及带有电[[偶极子]]或磁偶极子的激发作用中诞生,是{{link-en|能级回避交叉|Avoided crossing}}现象的一种表现。 |
'''电磁极化子'''是一种[[玻色子]][[準粒子]](不应与[[极子]],一种[[费米子]][[準粒子]]混淆)。它是由[[电磁波]]之间的强烈[[耦合 (物理学)|耦合]]以及带有电[[偶极子]]或磁偶极子的激发作用中诞生,是{{link-en|能级回避交叉|Avoided crossing}}现象的一种表现。 |
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== 历史 == |
== 历史 == |
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1929年[[勒维·通克斯]]及[[欧文·兰米尔]]观察到等离化气体的振盪。<ref>{{Cite journal|last=Tonks|first=Lewi|last2=Langmuir|first2=Irving|date=1929-02-01|title=Oscillations in Ionized Gases|url=https://link.aps.org/doi/10.1103/PhysRev.33.195|journal=Physical Review|volume=33|issue=2|pages=195–210|doi=10.1103/PhysRev.33.195}}</ref>而电磁极化子的概念则最初由Kirill Tolpygo所考慮到,他在1950年得出[[离子晶体]]中声子与电磁波的耦合狀态及其色散的关联,即声子-电磁极化子。<ref name=":1">{{Cite journal|url = |title = Physical properties of a rock salt lattice made up of deformable ions|last = Tolpygo|first = K.B.|date = 1950|journal = Zhurnal Eksperimentalnoi I Teoreticheskoi Fiziki (J. Exp. Theor. Phys.)|doi = |pmid = |access-date = |volume = 20|issue = 6|pages = 497–509, in Russian}}</ref><ref name=":0">K.B. Tolpygo, "Physical properties of a rock salt lattice made up of deformable ions," ''Zh. Eks.Teor. Fiz''. vol. 20, No. 6, pp. 497–509 (1950), English translation: ''Ukrainian Journal of Physics'', vol. 53, special issue (2008); {{cite web |url=http://ujp.bitp.kiev.ua/files/journals/53/si/53SI21p.pdf |title=Archived copy |accessdate=2015-10-15 |
1929年[[勒维·通克斯]]及[[欧文·兰米尔]]观察到等离化气体的振盪。<ref>{{Cite journal|last=Tonks|first=Lewi|last2=Langmuir|first2=Irving|date=1929-02-01|title=Oscillations in Ionized Gases|url=https://link.aps.org/doi/10.1103/PhysRev.33.195|journal=Physical Review|volume=33|issue=2|pages=195–210|doi=10.1103/PhysRev.33.195}}</ref>而电磁极化子的概念则最初由Kirill Tolpygo所考慮到,他在1950年得出[[离子晶体]]中声子与电磁波的耦合狀态及其色散的关联,即声子-电磁极化子。<ref name=":1">{{Cite journal|url = |title = Physical properties of a rock salt lattice made up of deformable ions|last = Tolpygo|first = K.B.|date = 1950|journal = Zhurnal Eksperimentalnoi I Teoreticheskoi Fiziki (J. Exp. Theor. Phys.)|doi = |pmid = |access-date = |volume = 20|issue = 6|pages = 497–509, in Russian}}</ref><ref name=":0">K.B. Tolpygo, "Physical properties of a rock salt lattice made up of deformable ions," ''Zh. Eks.Teor. Fiz''. vol. 20, No. 6, pp. 497–509 (1950), English translation: ''Ukrainian Journal of Physics'', vol. 53, special issue (2008); {{cite web |url=http://ujp.bitp.kiev.ua/files/journals/53/si/53SI21p.pdf |title=Archived copy |accessdate=2015-10-15 }}</ref>[[黄昆]]也在1951年独立得出此成果。<ref>{{Cite journal|url = |title = Lattice vibrations and optical waves in ionic crystals|last = Huang|first = Kun|date = 1951|journal = Nature|doi = 10.1038/167779b0|pmid = |access-date = |volume = 167|issue = 4254|pages = 779–780|bibcode = 1951Natur.167..779H }}</ref><ref>{{Cite journal|url = |title = On the interaction between the radiation field and ionic crystals|last = Huang|first = Kun|date = 1951|journal = Proceedings of the Royal Society of London|doi = |pmid = |access-date = |volume = 208|series = A|pages = 352–365}}</ref>它在苏联被称为光-激子(Light-exciton),现今的通用名称则由[[约翰·霍普菲尔德]]所改。 |
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1968年安德里亚斯·奥托首次发表有关表面等离极化激元的论文。<ref>{{Cite journal|url = |title = Excitation of nonradiative surface plasma waves in silver by the method of frustrated total reflection|last = Otto|first = A.|date = 1968|journal = Z. Phys.|doi = 10.1007/BF01391532|pmid = |access-date = |volume = 216|issue = 4|pages = 398–410|bibcode = 1968ZPhy..216..398O }}</ref>在2016年的意大利国家研究院以有机微腔器件观察到室温中的[[超流体]]弗伦克尔激子-电磁极化子。<ref>{{Cite journal|title = Room-temperature superfluidity in a polariton condensate|last = Lerario|first = Giovanni|first2 = Antonio|last2 = Fieramosca|first3 = Fábio|last3 = Barachati|first4 = Dario|last4 = Ballarini|first5 = Konstantinos S.|last5 = Daskalakis|first6 = Lorenzo|last6 = Dominici|first7 = Milena|last7 = De Giorgi|first8 = Stefan A.|last8 = Maier|first9 = Giuseppe|last9 = Gigli|first10 = Stéphane|last10 = Kéna-Cohen|first11 = Daniele|last11 = Sanvitto|year = 2017|journal = Nature Physics|doi = 10.1038/nphys4147|pmid = |volume =13|issue = 9|pages = 837–841|bibcode =2017NatPh..13..837L |arxiv = 1609.03153}}</ref>在2018年2月发现了新的三光子形态,并可能形成电磁极化子;此发现有助[[量子电脑]]的发展。<ref name="NW-20180216">{{cite web |last=Hignett |first=Katherine |title=Physics Creates New Form Of Light That Could Drive The Quantum Computing Revolution |url=http://www.newsweek.com/photons-light-physics-808862 |date=2018-02-16 |work=[[Newsweek]] |accessdate=2018-02-17 }}</ref><ref name="SCI-20180216">{{cite journal |author=Liang, Qi-Yu|display-authors=etal|title=Observation of three-photon bound states in a quantum nonlinear medium |date=2018-02-16 |journal=[[Science (journal)|Science]] |volume=359 |issue=6377 |pages=783–786 |doi=10.1126/science.aao7293 |arxiv=1709.01478 |bibcode=2018Sci...359..783L }}</ref> |
1968年安德里亚斯·奥托首次发表有关表面等离极化激元的论文。<ref>{{Cite journal|url = |title = Excitation of nonradiative surface plasma waves in silver by the method of frustrated total reflection|last = Otto|first = A.|date = 1968|journal = Z. Phys.|doi = 10.1007/BF01391532|pmid = |access-date = |volume = 216|issue = 4|pages = 398–410|bibcode = 1968ZPhy..216..398O }}</ref>在2016年的意大利国家研究院以有机微腔器件观察到室温中的[[超流体]]弗伦克尔激子-电磁极化子。<ref>{{Cite journal|title = Room-temperature superfluidity in a polariton condensate|last = Lerario|first = Giovanni|first2 = Antonio|last2 = Fieramosca|first3 = Fábio|last3 = Barachati|first4 = Dario|last4 = Ballarini|first5 = Konstantinos S.|last5 = Daskalakis|first6 = Lorenzo|last6 = Dominici|first7 = Milena|last7 = De Giorgi|first8 = Stefan A.|last8 = Maier|first9 = Giuseppe|last9 = Gigli|first10 = Stéphane|last10 = Kéna-Cohen|first11 = Daniele|last11 = Sanvitto|year = 2017|journal = Nature Physics|doi = 10.1038/nphys4147|pmid = |volume =13|issue = 9|pages = 837–841|bibcode =2017NatPh..13..837L |arxiv = 1609.03153}}</ref>在2018年2月发现了新的三光子形态,并可能形成电磁极化子;此发现有助[[量子电脑]]的发展。<ref name="NW-20180216">{{cite web |last=Hignett |first=Katherine |title=Physics Creates New Form Of Light That Could Drive The Quantum Computing Revolution |url=http://www.newsweek.com/photons-light-physics-808862 |date=2018-02-16 |work=[[Newsweek]] |accessdate=2018-02-17 }}</ref><ref name="SCI-20180216">{{cite journal |author=Liang, Qi-Yu|display-authors=etal|title=Observation of three-photon bound states in a quantum nonlinear medium |date=2018-02-16 |journal=[[Science (journal)|Science]] |volume=359 |issue=6377 |pages=783–786 |doi=10.1126/science.aao7293 |arxiv=1709.01478 |bibcode=2018Sci...359..783L }}</ref> |
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# 等离激子激元(Plexciton):[[电漿子]]及[[激子]]的耦合。<ref>{{Cite journal|last=Yuen-Zhou|first=Joel|last2=Saikin|first2=Semion K.|last3=Zhu|first3=Tony|last4=Onbasli|first4=Mehmet C.|last5=Ross|first5=Caroline A.|last6=Bulovic|first6=Vladimir|last7=Baldo|first7=Marc A.|date=2016-06-09|title=Plexciton Dirac points and topological modes|journal=Nature Communications|language=en|volume=7|pages=11783|doi=10.1038/ncomms11783|issn=2041-1723|pmc=4906226|pmid=27278258|arxiv=1509.03687|bibcode=2016NatCo...711783Y}}</ref> |
# 等离激子激元(Plexciton):[[电漿子]]及[[激子]]的耦合。<ref>{{Cite journal|last=Yuen-Zhou|first=Joel|last2=Saikin|first2=Semion K.|last3=Zhu|first3=Tony|last4=Onbasli|first4=Mehmet C.|last5=Ross|first5=Caroline A.|last6=Bulovic|first6=Vladimir|last7=Baldo|first7=Marc A.|date=2016-06-09|title=Plexciton Dirac points and topological modes|journal=Nature Communications|language=en|volume=7|pages=11783|doi=10.1038/ncomms11783|issn=2041-1723|pmc=4906226|pmid=27278258|arxiv=1509.03687|bibcode=2016NatCo...711783Y}}</ref> |
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# 磁振子-电磁极化子:[[磁振子]]及光子的耦合。 |
# 磁振子-电磁极化子:[[磁振子]]及光子的耦合。 |
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# 共振腔-电磁极化子:<ref>{{cite book |last= Klingshirn |first=Claus F. |date= 2012-07-06|title=Semiconductor Optics |edition=4 |url=https://www.springer.com/us/book/9783642283611 |location= |publisher=Springer |page=105 |isbn=978-364228362-8 |
# 共振腔-电磁极化子:<ref>{{cite book |last= Klingshirn |first=Claus F. |date= 2012-07-06|title=Semiconductor Optics |edition=4 |url=https://www.springer.com/us/book/9783642283611 |location= |publisher=Springer |page=105 |isbn=978-364228362-8 }}</ref>[[共振腔]]模与激子耦合。 |
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== 参考文献 == |
== 参考文献 == |
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