Nematicon

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In optics, a nematicon is a spatial soliton in nematic liquid crystals (NLC). The name was invented in 2003 by G. Assanto. [1] and used thereafter [2] [3] Nematicons are generated by a special type of optical nonlinearity present in NLC: the light induced reorientation of the molecular director (i.e. the average molecular orientation). This nonlinearity arises from the fact that the molecular director (i.e., the optic axis of the corresponding uniaxial) tends to align along the electric field of light. Nematicons are easy to generate (with mW optical power or less [4] [5] [6] ) because the NLC dielectric medium exhibits the following properties:

Contents

The difference between a nonlocal and a local response. In a local medium a pointwise intensity peak such as a Dirac delta gives rise to an equally sharp spatial response in refractive index. In a nonlocal medium the refractive index change extends well past the source, similar to a diffusive system. Nonlocality optical.png
The difference between a nonlocal and a local response. In a local medium a pointwise intensity peak such as a Dirac delta gives rise to an equally sharp spatial response in refractive index. In a nonlocal medium the refractive index change extends well past the source, similar to a diffusive system.

Since the reorientational optical nonlinearity of nematic liquid crystals is accompanied by an electro-optic response to low-frequency electric fields, i.e. applied voltages, nematicons and the associated waveguides [10] can be steered in angle and routed in space by the application of an external bias, leading to reconfigurable interconnects. [11] [12]

In waveguide arrays where discrete solitons are knows to form, [13] discrete nematicons have also been demonstrated [14] [15]

See also

References

  1. G. Assanto; M. Peccianti; C. Conti (2003). "Nematicons: Optical Spatial Solitons in Nematic Liquid Crystals". Optics and Photonics News. 14 (2): 44–48. Bibcode:2003OptPN..14...44A. doi:10.1364/OPN.14.2.000044.
  2. G. Assanto & M. Karpierz (2009). "Nematicons: self-localized beams in nematic liquid crystals". Liq. Cryst. 36 (10–11): 1161–1172. Bibcode:2009LoCr...36.1161A. doi:10.1080/02678290903033441. S2CID   121925099.
  3. M. Peccianti & G. Assanto (2012). "Nematicons". Phys. Rep. 516 (4–5): 147–208. Bibcode:2012PhR...516..147P. doi:10.1016/j.physrep.2012.02.004.
  4. J. Beeckman; K. Neyts; X. Hutsebaut; C. Cambournac; M. Haelterman (2004). "Simulations and Experiments on Self-focusing Conditions in Nematic Liquid-crystal Planar Cells". Opt. Express. 12 (6): 1011–1018. Bibcode:2004OExpr..12.1011B. doi: 10.1364/OPEX.12.001011 . PMID   19474916. S2CID   22914616. [ permanent dead link ]
  5. M. Peccianti; A. De Rossi; G. Assanto; A. De Luca; C. Umeton & I. C. Khoo (2000). "Electrically Assisted Self-Confinement and Waveguiding in planar Nematic Liquid Crystal cells". Appl. Phys. Lett. 77 (1): 7–9. Bibcode:2000ApPhL..77....7P. doi:10.1063/1.126859.
  6. A. Piccardi, A. Alberucci & G. Assanto (2010). "Self-turning self-confined light beams in guest-host media". Phys. Rev. Lett. 104 (21): 213904. Bibcode:2010PhRvL.104u3904P. doi:10.1103/PhysRevLett.104.213904. PMID   20867102.
  7. A. Snyder; D. Mitchell (1997). "Accessible Solitons". Science. 276 (5318): 1538–1541. doi:10.1126/science.276.5318.1538.
  8. C. Conti, M. Peccianti & G. Assanto (2003). "Route to nonlocality and observation of accessible solitons". Phys. Rev. Lett. 91 (7): 073901. arXiv: physics/0308024 . Bibcode:2003PhRvL..91g3901C. doi:10.1103/PhysRevLett.91.073901. PMID   12935018. S2CID   13532247.
  9. C. Conti, M. Peccianti & G. Assanto (2004). "Observation of optical spatial solitons in a highly nonlocal medium". Phys. Rev. Lett. 92 (11): 113902. arXiv: physics/0403032 . Bibcode:2004PhRvL..92k3902C. doi:10.1103/PhysRevLett.92.113902. PMID   15089136. S2CID   30524614.
  10. M. Peccianti & G. Assanto (2001). "Signal readdressing by steering of spatial solitons in bulk Nematic Liquid Crystals". Opt. Lett. 26 (21): 1690–1692. Bibcode:2001OptL...26.1690P. doi:10.1364/ol.26.001690. PMID   18049701.
  11. M. Peccianti; C. Conti; G. Assanto; A. De Luca; C. Umeton (2004). "Routing of Highly Anisotropic Spatial Solitons and Modulational Instability in liquid crystals". Nature. 432 (7018): 733–737. Bibcode:2004Natur.432..733P. doi:10.1038/nature03101. PMID   15592407. S2CID   4424339.
  12. M. Peccianti; A. Dyadyusha; M. Kaczmarek; G. Assanto (2006). "Tunable refraction and reflection of self-confined light beams". Nat. Phys. 2 (11): 737–742. Bibcode:2006NatPh...2..737P. doi: 10.1038/nphys427 .
  13. F. Lederer; G. I. Stegeman; D. N. Christodoulides; G. Assanto; M. Segev; Y. Silberberg (2008). "Discrete Solitons in Optics". Phys. Rep. 463 (1–3): 1–126. Bibcode:2008PhR...463....1L. doi:10.1016/j.physrep.2008.04.004.
  14. A. Fratalocchi; G. Assanto; K. A. Brzdąkiewicz; M. A. Karpierz (2004). "Discrete Propagation and Spatial Solitons in Nematic Liquid Crystals". Opt. Lett. 29 (13): 1530–1532. Bibcode:2004OptL...29.1530F. doi:10.1364/ol.29.001530. PMID   15259736. S2CID   31424691.
  15. G. Assanto, A. Fratalocchi & M. Peccianti (2007). "Spatial solitons in nematic liquid crystals: from bulk to discrete". Opt. Express. 15 (8): 5248–5259. Bibcode:2007OExpr..15.5248A. doi: 10.1364/oe.15.005248 . PMID   19532777.