Диссертация (1105425), страница 22
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A., Iorsh I., Kavokin A. V., Shelykh I. A.Hybrid states of Tamm plasmons and exciton polaritons // Appl. Phys. Lett. —2009. — т. 95, № 25. — с. 251108. 21[37] Brückner R., Zakhidov A., Scholz R., Sudzius M., Hintschich S., Fröb H.,Lyssenko V., Leo K. Phase-locked coherent modes in a patterned metal-organicmicrocavity // Nat. Photonics. — 2012. — т.
6. — с. 322–326. 21, 22[38] Gazzano O., de Vasconcellos S. M., Gauthron K., Symonds C., Bloch J.,Voisin P., Bellessa J., Lemaitre A., Senellart P. Evidence for confined Tammplasmon modes under metallic microdisks and application to the control ofspontaneous optical emission // Phys. Rev. Lett. — 2011. — т.
107. — с. 247402.22[39] Gazzano O., de Vasconcellos S. M., Gauthron K., Symonds C., Voisin P.,Bellessa J., Lemaître A., Senellart P. Single photon source using confinedTamm plasmon modes // Appl. Phys. Lett. — 2012. — т. 100, № 23. —с. 232111. 22[40] Liu H., Sun X., Yao F., Pei Y., Yuan H., Zhao H. Controllable couplingof localized and propagating surface plasmons to Tamm plasmons //Plasmonics. — 2012. — т. 7. — с. 749–754.
23[41] Auguié B., Fuertes M. C., Angelomé P. C., Abdala N. L., Soler Illia G. J.,Fainstein A. Tamm plasmon resonance in mesoporous multilayers: toward asensing application // ACS Photonics. — 2014. — т. 1, № 9. — с. 775–780. 23Список литературы131[42] Das R., Srivastava T., Jha R. Tamm-plasmon and surface-plasmon hybridmode based refractometry in photonic bandgap structures // Opt. Lett. —2014. — т. 39, № 4. — с.
896–899. 23[43] Badugu R., Lakowicz J. R. Tamm state-coupled emission: Effect of probelocation and emission wavelength // J. Phys. Chem. C. — 2014. — т. 118,№ 37. — с. 21558–21571. 23[44] Azzini S., Lheureux G., Symonds C., Benoit J.-M., Senellart P., Lemaitre A.,Greffet J.-J., Blanchard C., Sauvan C., Bellessa J. Generation and spatialcontrol of hybrid Tamm plasmon/surface plasmon modes // ACS Photonics. —2016.
— т. 3, № 10. — с. 1776–1781. 23[45] Peatross J., Rundquist A. Temporal decorrelation of short laser pulses // J.Opt. Soc. Am. B. — 1998. — т. 15, № 1. — с. 216–222. 24[46] Ropers C., Stibenz G., Steinmeyer G., Müller R., Park D., Lee K., Kihm J.,Kim J., Park Q., Kim D., Lienau C. Ultrafast dynamics of surface plasmonpolaritons in plasmonic metamaterials // Appl. Phys. B. — 2006. — т.
84. —с. 183–189. 25, 26[47] Vengurlekar A. S., Gopal A. V., Ishihara T. Femtosecond pulse distortion atsurface plasmon resonances in a plasmonic crystal: Effect of surface plasmonlifetime // Appl. Phys. Lett. — 2006. — т. 89, № 18.
— с. 181927. 25, 27[48] Vabishchevich P., Bessonov V., Sychev F., Shcherbakov M., Dolgova T.,Fedyanin A. Femtosecond relaxation dynamics of surface plasmon-polaritonsin the vicinity of Fano-type resonance // JETP Lett. — 2011. — т. 92, № 9. —с. 575–579. 25, 26, 28[49] Vabishchevich P.
P., Shcherbakov M., Bessonov V., Dolgova T., Fedyanin A.Femtosecond pulse shaping with plasmonic crystals // JETP Lett. — 2015. —т. 101, № 12. — с. 787–792. 25Список литературы132[50] Ropers C., Elsaesser T., Cerullo G., Zavelani-Rossi M., Lienau C.
Ultrafastoptical excitations of metallic nanostructures: from light confinement to a novelelectron source // New J. Phys. — 2007. — т. 9, № 10. — с. 397. 25[51] Melentiev P., Afanasiev A., Balykin V. Optical Tamm state on a femtosecondtime scale // Phys. Rev. A. — 2013. — т. 88, № 5. — с. 053841. 26[52] Kubo A., Onda K., Petek H., Sun Z., Jung Y. S., Kim H. K. Femtosecondimaging of surface plasmon dynamics in a nanostructured silver film // NanoLett. — 2005. — т. 5, № 6. — с.
1123–1127. 29[53] Kubo A., Pontius N., Petek H. Femtosecond microscopy of surface plasmonpolariton wave packet evolution at the silver/vacuum interface // Nano Lett. —2007. — т. 7, № 2. — с. 470–475. 29[54] Nozaki K., Tanabe T., Shinya A., Matsuo S., Sato T., Taniyama H.,Notomi M. Sub-femtojoule all-optical switching using a photonic-crystalnanocavity // Nat. Photonics.
— 2010. — т. 4, № 7. — с. 477–483. 29[55] Van V., Ibrahim T., Ritter K., Absil P., Johnson F., Grover R.,Goldhar J., Ho P.-T. All-optical nonlinear switching in GaAs-AlGaAsmicroring resonators // IEEE Photon. Technol. Lett. — 2002. — т. 14, № 1. —с. 74–76. 29[56] Shcherbakov M. R., Vabishchevich P. P., Shorokhov A. S., Chong K. E.,Choi D.-Y., Staude I., Miroshnichenko A. E., Neshev D. N., Fedyanin A.
A.,Kivshar Y. S. Ultrafast all-optical switching with magnetic resonances innonlinear dielectric nanostructures // Nano Lett. — 2015. — т. 15, № 10. —с. 6985–6990. 29[57] Almeida V. R., Barrios C. A., Panepucci R. R., Lipson M. All-optical controlof light on a silicon chip // Nature. — 2004. — т. 431, № 7012. — с. 1081–1084.29Список литературы133[58] Wagner M., Fei Z., McLeod A.
S., Rodin A. S., Bao W., Iwinski E. G.,Zhao Z., Goldflam M., Liu M., Dominguez G. и др. Ultrafast and nanoscaleplasmonic phenomena in exfoliated graphene revealed by infrared pump–probenanoscopy // Nano Lett. — 2014. — т. 14, № 2. — с. 894–900. 29[59] Ni G., Wang L., Goldflam M., Wagner M., Fei Z., McLeod A., Liu M.,Keilmann F., Özyilmaz B., Neto A. C. и др. Ultrafast optical switching ofinfrared plasmon polaritons in high-mobility graphene // Nat.
Photonics. —2016. — т. 10, № 4. — с. 244–247. 29[60] Chen Y.-C., Raravikar N., Schadler L., Ajayan P., Zhao Y.-P., Lu T.-M.,Wang G.-C., Zhang X.-C. Ultrafast optical switching properties of singlewall carbon nanotube polymer composites at 1.55 µm // Appl. Phys. Lett. —2002. — т. 81, № 6.
— с. 975–977. 29[61] Del Fatti N., Voisin C., Achermann M., Tzortzakis S., Christofilos D.,Vallée F. Nonequilibrium electron dynamics in noble metals // Phys. Rev.B. — 2000. — т. 61, № 24. — с. 16956. 29, 31, 74[62] Del Fatti N., Bouffanais R., Vallée F., Flytzanis C. Nonequilibrium electroninteractions in metal films // Phys. Rev. Lett. — 1998.
— т. 81, № 4. — с. 922.29, 30, 74[63] Groeneveld R. H., Sprik R., Lagendijk A. Femtosecond spectroscopy ofelectron-electron and electron-phonon energy relaxation in Ag and Au // Phys.Rev. B. — 1995. — т. 51, № 17. — с. 11433. 29[64] Hohlfeld J., Wellershoff S.-S., Güdde J., Conrad U., Jähnke V., Matthias E.Electron and lattice dynamics following optical excitation of metals // Chem.Phys. — 2000. — т.
251, № 1. — с. 237–258. 29, 30[65] Sabbah A., Riffe D. M. Femtosecond pump-probe reflectivity study of siliconcarrier dynamics // Phys. Rev. B. — 2002. — т. 66, № 16. — с. 165217. 29Список литературы134[66] Cho G., Kütt W., Kurz H. Subpicosecond time-resolved coherent-phononoscillations in GaAs // Phys.
Rev. Lett. — 1990. — т. 65, № 6. — с. 764. 29[67] Goldman J., Prybyla J. Ultrafast dynamics of laser-excited electrondistributions in silicon // Phys. Rev. Lett. — 1994. — т. 72, № 9. — с. 1364. 29[68] Zielbauer J., Wegener M. Ultrafast optical pump THz-probe spectroscopy onsilicon // Appl.
Phys. Lett. — 1996. — т. 68, № 9. — с. 1223–1225. 29[69] Sun C.-K., Vallée F., Acioli L. H., Ippen E. P., Fujimoto J. G. Femtosecondtunable measurement of electron thermalization in gold // Phys. Rev. B. —1994. — т. 50. — с. 15337–15348. 29, 30[70] van Exter M., Lagendijk A. Ultrashort surface-plasmon and phonondynamics // Phys. Rev. Lett. — 1988. — т.
60. — с. 49–52. 31[71] MacDonald K. F., Samson Z. L., Stockman M. I., Zheludev N. I. Ultrafastactive plasmonics // Nat. Photonics. — 2008. — т. 3. — с. 55–58. 32[72] Baida H., Mongin D., Christofilos D., Bachelier G., Crut A., Maioli P.,Del Fatti N., Vallée F. Ultrafast nonlinear optical response of a single goldnanorod near its surface plasmon resonance // Phys. Rev. Lett. — 2011.
—т. 107. — с. 057402. 33[73] Pohl M., Belotelov V. I., Akimov I. A., Kasture S., Vengurlekar A. S.,Gopal A. V., Zvezdin A. K., Yakovlev D. R., Bayer M. Plasmonic crystals forultrafast nanophotonics: Optical switching of surface plasmon polaritons //Phys. Rev. B. — 2012. — т. 85. — с. 081401. 33, 34[74] Клышко Д. Н. Физические основы квантовой электроники. — М.:Наука,1986. 35[75] Rudnick J., Stern E. A. Second-harmonic radiation from metal surfaces //Phys. Rev.
B. — 1971. — т. 4. — с. 4274–4290. 36Список литературы135[76] Krause D., Teplin C. W., Rogers C. T. Optical surface second harmonicmeasurements of isotropic thin-film metals: Gold, silver, copper, aluminum,and tantalum // J. Appl. Phys. — 2004. — т. 96, № 7. — с. 3626–3634. 37, 100[77] Nakayama Y., Pauzauskie P. J., Radenovic A., Onorato R. M., Saykally R. J.,Liphardt J., Yang P. Tunable nanowire nonlinear optical probe // Nature. —2007.
— т. 447, № 7148. — с. 1098–1101. 37[78] Campagnola P. J., Clark H. A., Mohler W. A., Lewis A., Loew L. M. Secondharmonic imaging microscopy of living cells // J. Biomed. Opt. — 2001. — т. 6,№ 3. — с. 277–286. 37[79] Williams C. T., Beattie D. A. Probing buried interfaces with non-linear opticalspectroscopy // Surf.
Sci. — 2002. — т. 500, № 1–3. — с. 545 – 576. 37[80] Kim S., Jin J., Kim Y.-J., Park I.-Y., Kim Y., Kim S.-W. High-harmonicgeneration by resonant plasmon field enhancement // Nature. — 2008. — т. 453,№ 7196. — с. 757–760. 37[81] Simon H. J., Mitchell D. E., Watson J. G. Optical second-harmonic generationwith surface plasmons in silver films // Phys. Rev.
Lett. — 1974. — т. 33. —с. 1531–1534. 37, 38[82] Corcoran B., Monat C., Grillet C., Moss D. J., Eggleton B. J., White T. P.,O’Faolain L., Krauss T. F. Green light emission in silicon through slow-lightenhanced third-harmonic generation in photonic-crystal waveguides // Nat.Photonics. — 2009. — т. 3, № 4. — с. 206–210. 37[83] Soboleva I., Murchikova E., Fedyanin A., Aktsipetrov O. Second- and thirdharmonic generation in birefringent photonic crystals and microcavities basedon anisotropic porous silicon // Appl.
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