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Photoinduced piezoelectric and elastic effects in the 2-cyclooctylamino-5-nitropyridine–C70 complexes

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
We have observed the piezoelectric and elastooptic effects for the 2-cyclooctylamino-5-nitropyridine complex, chromophore doped by an inter-molecular acceptor – fullerene C70. The discovered features may be used for optically operated piezoelectric triggers, modulators and deflectors. The observed effects are caused by the effective interaction of external light with the polarizable chromophore. As a pumping laser beam we have used both a nanosecond fundamental 1064 nm laser wavelength as well as its second harmonic generation at 532 nm. A principal role in the observed effects play photoinduced anharmonic phonons, effectively contributing to the output effect.
Czasopismo
Rocznik
Strony
463--469
Opis fizyczny
Bibliogr. 20 poz., rys., wykr.
Twórcy
  • Vavilov State Optical Institute, 12 Birzhevaya Line St., St.-Petersburg 199034, Russia
autor
  • Military University of Technology, 2 Kaliskiego St., 00-908 Warsaw, Poland
autor
  • WELDI S.C., 1 Pszczyńska St., 43-175 Wyry, Poland
Bibliografia
  • [1] WANG Y., HERRON N., CASPER J., Bucky ball and quantum dot doped polymers: a new class of optoelectronic materials, Materials Science and Engineering B 19(1–2), 1993, pp. 61–66.
  • [2] ROBERTSON J., Realistic applications of CNTs, Materials Today 7(10), 2004, pp. 46–52.
  • [3] WEI LEE AND HSU-CHIH CHEN, Diffraction efficiency of a holographic grating in a liquid-crystal cell composed of asymmetrically patterned electrodes, Nanotechnology 14(9), 2003, pp. 987–990.
  • [4] BUCHNEV O., DYADYUSHA A., KACZMAREK M., RESHETNYAK V., REZNIKOV YU., Enhanced two-beam coupling in colloids of ferroelectric nanoparticles in liquid crystals, Journal of the Optical Society of America B 24(7), 2007, pp. 1512–1516.
  • [5] GRISHINA A.D., LICEA-JIMENE L., PERESHIVKO L.YA., KRIVENKO T.V., SAVEL’EV V.V., RYCHWALSKI R.W., VANNIKOV A.V., Infrared photorefractive composites based on polyvinylcarbazole and carbon nanotubes, High Energy Chemistry 40(5), 2006, pp. 341–347.
  • [6] KAMANINA N.V., EMANDI A., KAJZAR F., ATTIAS A.-J., Laser-induced change in the refractive index in the systems based on nanostructured polyimide: comparative study with other photosensitive structures, Molecular Crystals and Liquid Crystals 486(1), 2008, pp. 1–11.
  • [7] KAMANINA N.V., SEROV S.V, SHURPO N.A., LIKHOMANOVA S.V., TIMONIN D.N., KUZHAKOV P.V., ROZHKOVA N.N., KITYK I.V, PLUCINSKI K.J., USKOVIC D.P., Polyimide-fullerene nanostructured materials for nonlinear optics and solar energy applications, Journal of Materials Science: Materials in Electronics 23(8), 2012, pp. 1538–1542.
  • [8] JIN YAN, MEIZI JIAO, LINGHUI RAO, SHIN-TSON WU, Direct measurement of electric-field-induced birefringence in a polymer-stabilized blue-phase liquid crystal composite, Optics Express 18(11), 2010, pp. 11450–11455.
  • [9] SUTTR K., HULLIGER J., GUNTER P., Photorefractive effects observed in the organic crystal 2-cyclooctylamino-5-nitropyridine doped with 7,7,8,8-tetracyanoquinodimethane, Solid State Communications 74(8), 1990, pp. 867–870.
  • [10] LEYDERMAN A., CUI Y., Electro-optical characterization of a 2-cyclo-octylamino-5-nitropyridine thin organic crystal film, Optics Letters 23(12), 1998, pp. 909–911.
  • [11] KAMANINA N.V., BARRIENTOS A., LEYDERMAN A., CUI Y., VIKHNIN V., VLASSE M., Effect of fullerene doping on the absorption edge shift in COANP, Molecular Materials 13(1–4), 2000, pp. 275–280.
  • [12] KAMANINA N.V., Peculiarities of optical limiting effect in π -conjugated organic systems based on 2-cyclooctylamino-5-nitropyridine doped with C70, Journal of Optics A: Pure and Applied Optics 3(5), 2001, pp. 321–325.
  • [13] KAMANINA N.V., PLEKHANOV A.I., Mechanisms of optical limiting in fullerene-doped π -conjugated organic structures demonstrated with polyimide and COANP molecules, Optics and Spectroscopy 93(3), 2002, pp. 408–415.
  • [14] KITYK I.V., KASPERCZYK J., SAHRAOUI B., YASINSKII M.F., HOLAN B., Low temperature anomalies in polivinyl alcohol photopolymers, Polymer 38(19), 1997, pp. 4803–4806.
  • [15] SAHRAOUI B., DERKOWSKA B., KRYZA A., KITYK I.V., The IR photoinduced changes in the Y–Ba––Cu–O thin films, Optica Applicata 31(2), 2001, pp. 445–451.
  • [16] KITYK I. V., MAKOWSKA-JANUSIK M., GONDEK E., KRZEMINSKA L., DANEL A., PLUCINSKI K.J., BENET S., SAHRAOUI B., Optical poling of oligoether acrylate photopolymers doped by stilbene-benzoate derivative chromophores, Journal of Physics: Condensed Matter 16(3), 2004, pp. 231–239.
  • [17] KOSCIEN E., SANETRA J., GONDEK E., JAROSZ B., KITYK I.V., EBOTHE J., KITYK A.V., Optical poling of several halogen derivatives of pyrazoloquinoline, Optics Communications 242(4–6), 2004, pp. 401–409.
  • [18] KITYK I.V., KASSIBA A., PLUCINSKI K., BERDOWSKI J., Band structure of the large-sized SiC nanocomposites, Physics Letters A 265(5–6), 2000, pp. 403–410.
  • [19] BUTTNER N., Some Problems of Electron–Phonon Anharmonciities in Solids, Munchen Univ. Publishing, 2008, p. 123.
  • [20] OZGA K., GONDEK E., DANEL A., CHACZATRIAN K., Optical poling of oligoether acrylate photopolymers doped by 1-H-pyrazolo[3,4-b]quinolines derivative chromophores, Optics Communications 231(1–6), 2004, pp. 437–446.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-af248269-8774-48a6-bb39-8e537aef5813
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