Imbert–Fedorov effect: Difference between revisions
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Trodemaster (talk | contribs) I've changed "phase shift" to "position shift," as that is what the Imbert-Fedrov effect is. It is not a simple phase shift. I'va also added a reference to a recent review. |
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The '''Imbert–Fiodaraŭ effect''' (named after [[Fiodar Fiodaraŭ|Fiodar Ivanavič Fiodaraŭ]] (1911 – 1994) and Christian Imbert (1937 – 1998)<ref>http://e-ico.org/node/81</ref> is an [[optical phenomenon]] in which a beam of [[Circular polarization|circularly]] or [[Elliptical polarization|elliptically polarized]] light undergoes a small sideways shift, when refracted or [[Total internal reflection|totally internally reflected]]. The sideways shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the [[Goos–Hänchen effect]]. |
The '''Imbert–Fiodaraŭ effect''' (named after [[Fiodar Fiodaraŭ|Fiodar Ivanavič Fiodaraŭ]] (1911 – 1994) and Christian Imbert (1937 – 1998)<ref>http://e-ico.org/node/81</ref> is an [[optical phenomenon]] in which a beam of [[Circular polarization|circularly]] or [[Elliptical polarization|elliptically polarized]] light undergoes a small sideways shift, when refracted or [[Total internal reflection|totally internally reflected]]. The sideways shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the [[Goos–Hänchen effect]]. |
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==References== |
==References== |
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{{Reflist}} |
{{Reflist}} |
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* {{cite book |last1=de Fornel |first1=Frédérique |title=Evanescent Waves: From Newtonian Optics to Atomic Optics |date=2001 |publisher=Springer |location=Berlin |isbn=9783540658450 |pages=9–13 |language=en}} |
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* {{cite journal |doi=10.1364/AO.43.001863|title=Experimental observation of the Imbert–Fedorov transverse displacement after a single total reflection |year=2004 |last1=Pillon |first1=Frank |last2=Gilles |first2=Hervé |last3=Girard |first3=Sylvain |journal=Applied Optics |volume=43 |issue=9 |pages=1863–1869 |pmid=15072036 |bibcode=2004ApOpt..43.1863P }} |
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* Frederique de Fornel, Evanescent Waves: From Newtonian Optics to Atomic Optics, Springer (2001), pp. 13–17 |
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* {{cite journal |doi=10.1088/2040-8978/15/1/014001|title=Goos–Hänchen and Imbert–Fedorov beam shifts: An overview |year=2013 |last1=Bliokh |first1=K. Y. |last2=Aiello |first2=A. |journal=Journal of Optics |volume=15 |issue=1 |page=014001 |arxiv=1210.8236 |bibcode=2013JOpt...15a4001B |s2cid=118380597 }} |
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* Frank Pillon, Herve Gilles, and Sylvain Girard, [http://www.opticsinfobase.org/abstract.cfm?URI=ao-43-9-1863 Experimental observation of the Imbert–Fedorov transverse displacement after a single total reflection], Applied Optics, volume 43, number 9, page 1863 (2004) |
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* K. Y. Bliokh, A. Aiello, Goos–Hänchen and Imbert–Fedorov beam shifts: an overview, J. Opt. 15 (2013) 014001. |
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{{DEFAULTSORT:Imbert-Fedorov effect}} |
{{DEFAULTSORT:Imbert-Fedorov effect}} |
Latest revision as of 06:15, 20 September 2023
The Imbert–Fiodaraŭ effect (named after Fiodar Ivanavič Fiodaraŭ (1911 – 1994) and Christian Imbert (1937 – 1998)[1] is an optical phenomenon in which a beam of circularly or elliptically polarized light undergoes a small sideways shift, when refracted or totally internally reflected. The sideways shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect.
References
[edit]- de Fornel, Frédérique (2001). Evanescent Waves: From Newtonian Optics to Atomic Optics. Berlin: Springer. pp. 9–13. ISBN 9783540658450.
- Pillon, Frank; Gilles, Hervé; Girard, Sylvain (2004). "Experimental observation of the Imbert–Fedorov transverse displacement after a single total reflection". Applied Optics. 43 (9): 1863–1869. Bibcode:2004ApOpt..43.1863P. doi:10.1364/AO.43.001863. PMID 15072036.
- Bliokh, K. Y.; Aiello, A. (2013). "Goos–Hänchen and Imbert–Fedorov beam shifts: An overview". Journal of Optics. 15 (1): 014001. arXiv:1210.8236. Bibcode:2013JOpt...15a4001B. doi:10.1088/2040-8978/15/1/014001. S2CID 118380597.