Zobrazeno 1 - 10
of 1 406
pro vyhledávání: '"Juodkazis, S."'
Publikováno v:
Journal of Lightwave Technology, vol. 39 Early Access (2021)
We theoretically investigate advanced multi-functional integrated photonic filters formed by three waveguide coupled Sagnac loop reflectors (3WC-SLRs). By tailoring the coherent mode interference, the spectral response of the 3WC-SLR resonators is en
Externí odkaz:
http://arxiv.org/abs/2103.07822
Autor:
Rastogi, Rishabh, Arianfard, Hamed, Moss, D., Juodkazis, S., Michel-Adam, P., Krishnamoorthy*, S.
Electromagnetic hot-spots at ultra-narrow plasmonic nanogaps carry immense potential to drive detection limits down to few molecules in sensors based on surface enhanced Raman or Fluorescence spectroscopies. However, leveraging the EM hot-spots requi
Externí odkaz:
http://arxiv.org/abs/2011.13710
Autor:
Anand, V., Maksimovic, J., Katkus, T., Ng, S. H., Ulcinas, O., Mikutis, M., Baltrukonis, J., Urbas, A., Slekys, G., Ogura, H., Sagae, D., Pikuz, T., Somekawa, T., Ozaki, N., Vailionis, A., Seniutinas, G., Mizeikis, V., Glazebrook, K., Brodie, J. P., Stoddart, P. R., Rapp, L., Rode, A. V., Gamaly, E. G., Juodkazis, S.
We put forward a co-axial pump(optical)-probe(X-rays) experimental concept and show performance of the optical component. A Bessel beam generator with a central 100 micrometers-diameter hole (on the optical axis) was fabricated using femtosecond (fs)
Externí odkaz:
http://arxiv.org/abs/2005.14654
Autor:
Grineviciute, L., Tolenis, T., Ryu, M., Moein, T., Ng, S. -H., Katkus, T., Maksimovic, Jovan, Drazdys, R., Morikawa, J., Juodkazis, S.
A simple procedure is demonstrated for fabrication of waveplates which can be released from substrate by laser cutting. Oblique angle deposition, chemical etching and laser inscription steps were used for the final lift-off and release of micro-wavep
Externí odkaz:
http://arxiv.org/abs/1907.05485
Publikováno v:
In Materials Today Nano March 2023 21
It was demonstrated during the past decade that ultrashort intense laser pulse tightly focused deep inside a transparent dielectric generates the energy density in excess of several MJ/cm3. Such energy concentration with extremely high heating and qu
Externí odkaz:
http://arxiv.org/abs/1802.10345
Autor:
Mitsai, E., Kuchmizhak, A., Pustovalov, E., Sergeev, A., Mironenko, A., Bratskaya, S., Linklater, D. P., Balcytis, A., Ivanova, E., Juodkazis, S.
All-dielectric resonant micro- and nano-structures made of the high-index dielectrics recently emerge as a promising SERS platform which can complement or potentially replace the metal-based counterparts in routine sensing measurements. These unique
Externí odkaz:
http://arxiv.org/abs/1802.09783
Autor:
Imade, Y., Ulbricht, R., Tomoda, M., Matsuda, O., Seniutinas, G., Juodkazis, S., Wright, O. B.
Using polarization-resolved transient reflection spectroscopy, we investigate the ultrafast modulation of light interacting with a metasurface consisting of coherently vibrating nanophotonic meta-atoms in the form of U-shaped split-ring resonators, t
Externí odkaz:
http://arxiv.org/abs/1706.08909
Autor:
Wang, X. W., Kuchmizhak, A. A., Li, X., Juodkazis, S., Vitrik, O. B., Kulchin, Yu. N., Zhakhovsky, V. V., Danilov, P. A., Ionin, A. A., Kudryashov, S. I., Rudenko, A. A., Inogamov, N. A.
Publikováno v:
Phys. Rev. Applied 8, 044016 (2017)
Nanoscale thermally assisted hydrodynamic melt perturbations induced by ultrafast laser energy deposition in noble-metal films produce irreversible nanoscale translative mass redistributions and results in formation of radially-symmetric frozen surfa
Externí odkaz:
http://arxiv.org/abs/1703.06758
Autor:
Wang, X. W., Seniutinas, G., Balcytis, A., Kasalynas, I., Jakstas, V., Janonis, V., Venckevicius, R., Buividas, R., Appadoo, D., Valusis, G., Juodkazis, S.
Modification of surface and volume of sapphire is shown to affect reflected and transmitted light at THz spectral range. Structural modifications were made using ultra-short 230 fs laser pulses at 1030 nm and 257.5 nm wavelengths forming surface ripp
Externí odkaz:
http://arxiv.org/abs/1605.04493