Matches in DBpedia 2016-04 for { ?s ?p "The Imbert–Fedorov effect (named after Fedor Ivanovič Fedorov (1911 – 1994) and Christian Imbert (1937 – 1998) is an optical phenomenon in which circularly or elliptically polarized light undergoes a small phase shift, when totally internally reflected. The phase shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect."@en }
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- Imbert–Fedorov_effect abstract "The Imbert–Fedorov effect (named after Fedor Ivanovič Fedorov (1911 – 1994) and Christian Imbert (1937 – 1998) is an optical phenomenon in which circularly or elliptically polarized light undergoes a small phase shift, when totally internally reflected. The phase shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect.".
- Q1139880 abstract "The Imbert–Fedorov effect (named after Fedor Ivanovič Fedorov (1911 – 1994) and Christian Imbert (1937 – 1998) is an optical phenomenon in which circularly or elliptically polarized light undergoes a small phase shift, when totally internally reflected. The phase shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect.".
- Imbert–Fedorov_effect comment "The Imbert–Fedorov effect (named after Fedor Ivanovič Fedorov (1911 – 1994) and Christian Imbert (1937 – 1998) is an optical phenomenon in which circularly or elliptically polarized light undergoes a small phase shift, when totally internally reflected. The phase shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect.".
- Q1139880 comment "The Imbert–Fedorov effect (named after Fedor Ivanovič Fedorov (1911 – 1994) and Christian Imbert (1937 – 1998) is an optical phenomenon in which circularly or elliptically polarized light undergoes a small phase shift, when totally internally reflected. The phase shift is perpendicular to the plane containing the incident and reflected beams. This effect is the circular polarization analog of the Goos–Hänchen effect.".