A superprism is a photonic crystal in which an entering beam of light will lead to an extremely large angular dispersion. The ability of the photonic crystal to send optical beams with different wavelengths to considerably different angles in space in superprisms has been used to demonstrate wavelength demultiplexing in these structures. The first superprism also modified group velocity rather than phase velocity in order to achieve the "superprism phenomena". This effect was interpreted as anisotropic dispersion in contrast to an isotropic dispersion. Furthermore, the two beams of light appear to show negative bending within the crystal.[1]
^Kosaka, Hideo; Kawashima, Takayuki; Tomita, Akihisa; Notomi, Masaya; Tamamura, Toshiaki; Sato, Takashi; Kawakami, Shojiro (1998). (PDF). Physical Review B. 58 (16): R10096. Bibcode:1998PhRvB..5810096K. doi:10.1103/PhysRevB.58.R10096. Archived from the original (Free PDF download) on 2014-10-21.
Further readingedit
Prasad T, Colvin V, Mittleman D (2003). (PDF). Physical Review B. 67 (16): 165103. Bibcode:2003PhRvB..67p5103P. doi:10.1103/PhysRevB.67.165103. Archived from the original (PDF) on 2007-03-17.
Nelson BE, Gerken M, Miller DA, Piestun R, Lin C, Harris JS (2000). "Use of a dielectric stack as a one-dimensional photonic crystal for wavelength demultiplexing by beam shifting". Optics Letters. 25 (20): 1502–4. Bibcode:2000OptL...25.1502N. CiteSeerX10.1.1.32.3738. doi:10.1364/OL.25.001502. PMID 18066259.
Matsumoto T, Fujita S, Baba T (2005). "Wavelength demultiplexer consisting of Photonic crystal superprism and superlens". Optics Express. 13 (26): 10768–76. Bibcode:2005OExpr..1310768M. doi:10.1364/OPEX.13.010768. PMID 19503294.
Witzens J, Baehr-Jones T, Scherer A (2005). "Hybrid superprism with low insertion losses and suppressed cross-talk" (PDF). Physical Review E. 71 (1): 026604. Bibcode:2005PhRvE..71a6604W. doi:10.1103/PhysRevE.71.016604. PMID 15697744.
Momeni B, Huang J, Soltani M, Askari M, Mohammadi S, Rakhshandehroo M, Adibi A (2006). "Compact wavelength demultiplexing using focusing negative index photonic crystal superprisms". Optics Express. 14 (6): 2413–22. Bibcode:2006OExpr..14.2413M. doi:10.1364/OE.14.002413. hdl:1853/45512. PMID 19503580.
Jugessur A, Wu L, Bakhtazad A, Kirk A, Krauss T, De La Rue R (2006). "Compact and integrated 2-D photonic crystal super-prism filter-device for wavelength demultiplexing applications". Optics Express. 14 (4): 1632–42. Bibcode:2006OExpr..14.1632J. doi:10.1364/OE.14.001632. PMID 19503491.
superprism, this, article, includes, list, general, references, lacks, sufficient, corresponding, inline, citations, please, help, improve, this, article, introducing, more, precise, citations, march, 2013, learn, when, remove, this, message, superprism, photo. This article includes a list of general references but it lacks sufficient corresponding inline citations Please help to improve this article by introducing more precise citations March 2013 Learn how and when to remove this message A superprism is a photonic crystal in which an entering beam of light will lead to an extremely large angular dispersion The ability of the photonic crystal to send optical beams with different wavelengths to considerably different angles in space in superprisms has been used to demonstrate wavelength demultiplexing in these structures The first superprism also modified group velocity rather than phase velocity in order to achieve the superprism phenomena This effect was interpreted as anisotropic dispersion in contrast to an isotropic dispersion Furthermore the two beams of light appear to show negative bending within the crystal 1 See also editMirror Pack Superlens Prism optics Metamaterial Perfect mirrorReferences edit Kosaka Hideo Kawashima Takayuki Tomita Akihisa Notomi Masaya Tamamura Toshiaki Sato Takashi Kawakami Shojiro 1998 Superprism phenomena in photonic crystals PDF Physical Review B 58 16 R10096 Bibcode 1998PhRvB 5810096K doi 10 1103 PhysRevB 58 R10096 Archived from the original Free PDF download on 2014 10 21 Further reading editPrasad T Colvin V Mittleman D 2003 BROKEN LINK Superprism phenomenon in three dimensional macroporous polymer photonic crystals BROKEN LINK PDF Physical Review B 67 16 165103 Bibcode 2003PhRvB 67p5103P doi 10 1103 PhysRevB 67 165103 Archived from the original PDF on 2007 03 17 Nelson BE Gerken M Miller DA Piestun R Lin C Harris JS 2000 Use of a dielectric stack as a one dimensional photonic crystal for wavelength demultiplexing by beam shifting Optics Letters 25 20 1502 4 Bibcode 2000OptL 25 1502N CiteSeerX 10 1 1 32 3738 doi 10 1364 OL 25 001502 PMID 18066259 Matsumoto T Fujita S Baba T 2005 Wavelength demultiplexer consisting of Photonic crystal superprism and superlens Optics Express 13 26 10768 76 Bibcode 2005OExpr 1310768M doi 10 1364 OPEX 13 010768 PMID 19503294 Witzens J Baehr Jones T Scherer A 2005 Hybrid superprism with low insertion losses and suppressed cross talk PDF Physical Review E 71 1 026604 Bibcode 2005PhRvE 71a6604W doi 10 1103 PhysRevE 71 016604 PMID 15697744 Momeni B Huang J Soltani M Askari M Mohammadi S Rakhshandehroo M Adibi A 2006 Compact wavelength demultiplexing using focusing negative index photonic crystal superprisms Optics Express 14 6 2413 22 Bibcode 2006OExpr 14 2413M doi 10 1364 OE 14 002413 hdl 1853 45512 PMID 19503580 Jugessur A Wu L Bakhtazad A Kirk A Krauss T De La Rue R 2006 Compact and integrated 2 D photonic crystal super prism filter device for wavelength demultiplexing applications Optics Express 14 4 1632 42 Bibcode 2006OExpr 14 1632J doi 10 1364 OE 14 001632 PMID 19503491 nbsp This condensed matter physics related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Superprism amp oldid 1196114216, wikipedia, wiki, book, books, library,
