Source: https://baldychevalaboratory.com/publications/
Timestamp: 2019-04-21 02:13:30+00:00

Document:
Hogan, B. et al. 2D WS2 Liquid Crystals: Tunable Functionality Enabling Diverse Applications. Nanoscale under review (2018).
Faneca J, Perova TS, Tolmachev V, Baldycheva A. One-dimensional Multi-channel Photonic Crystal Resonators based on Silicon-On-Insulator with High-Quality Factor. Front. Phys. | doi: 10.3389/fphy.2018.00033.
Somov, A., Alonso, E. T., Craciun, M. F., Neves, A. I. S. & Baldycheva, A. Smart textile: Exploration of wireless sensing capabilities. in IEEE Xplore SENSORS 1–3, doi:10.1109/ICSENS.2017.8234058 (2018). PDF download.
Trimby, L., Baldycheva, A. & Wright, C. D. Phase-change band-pass filters for multispectral imaging. SPIE Proc. 10541, 105412B–10541–8 (2018).
Faneca, J., Hogan, B. T., Alonso, E. T., Craciun, M. & Baldycheva, A. 2D materials integrated in Si3N4 photonics platform. SPIE Proc. 10537, 105370A–10537–13 (2018). PDF download.
Li, N. et al. Ultra-narrow-linewidth erbium-doped lasers on a silicon photonics platform. SPIE Proc. 10537, 1053712–1053717 (2018).
Kovalska, E. et al. NLL-Assisted Multilayer Graphene Patterning. ACS Omega 3, 1546–1554 (2018). PDF available here.
Hogan, B. T., Kovalska, E., Craciun, M. F. & Baldycheva, A. 2D material liquid crystals for optoelectronics and photonics. J. Mater. Chem. C 5, 11185–11195 (2017). PDF available here.
Purnawirman et al. Ultra-narrow-linewidth Al_2O_3:Er^3+ lasers with a wavelength-insensitive waveguide design on a wafer-scale silicon nitride platform. Opt. Express 25, 13705 (2017).
Hogan, B. T. et al. Dynamic in-situ sensing of fluid-dispersed 2D materials integrated on microfluidic Si chip. Sci. Rep. 7, 42120 (2017). PDF available here.
Hogan, B. T. et al. Ultra-sensitive label-free in-situ detection of dynamically driven self-assembly of 2D nanoplatelets on SOI chip. http://arxiv.org/abs/1605.03238 (2016).
Purnawirman et al. Compact Rare-Earth-Doped Microring Lasers Monolithically Integrated on Silicon Chips. in CLEO Europe: 2015 CK_12_2 (OSA, 2015).
Li, G. V. et al. Tunable microcavity based on macroporous Silicon : feasibility of fabrication. IEEE J. Light. Technol. 31, 2694–2609 (2013).
Li, G. V. et al. Surface Tamm states in a photonic crystal slab with asymmetric termination. Phys. Status Solidi – Rapid Res. Lett. 7, 481–484 (2013).
Baldycheva, A., Tolmachev, V. A., Berwick, K. & Perova, T. S. Multi-channel Si-liquid crystal filter with fine tuning capability of individual channels for compensation of fabrication tolerances. Nanoscale Res. Lett. 7, 1 (2012).
Dyakov, S. a. et al. Surface states in the optical spectra of two-dimensional photonic crystals with various surface terminations. Phys. Rev. B 86, 115126 (2012).
Baldycheva, A., Tolmachev, V. A. & Perova, T. S. Fine tunable multi-cavity Si photonic crystal filters. in Proceedings of SPIE 8431, 84310H–84310H–13 (2012).
Tolmachev, V. A., Baldycheva, A. V., Berwick, K. & Perova, T. S. Influence of fluctuations of the geometrical parameters on the photonic band gaps in one-dimensional photonic crystals. Prog. Electromagn. Res. 126, 285–302 (2012).
Baldycheva, A. et al. Silicon photonic crystal filter with ultrawide passband characteristics. Opt. Lett. 36, 1854–6 (2011).
Baldycheva, A., Tolmachev, V. A., Perova, T. S. & Berwick, K. Formation of Infrared Regions of Transparency in One-Dimensional Silicon Photonic Crystals. IEEE Photonics Technol. Lett. 23, 200–202 (2011).
Baldycheva, A. et al. Design, fabrication, and optical characterization of multicomponent photonic crystals for integrated silicon microphotonics. in Proceedings of SPIE 7943, 79430F–79430F–11 (2011).
Tolmachev, V. A., Melnikov, V. A., Baldycheva, А., Berwick, K. & Perova, T. S. Electrically tunable Fabry-Perot resonator based on microstructured Si containing liquid crystal. Prog. Electromagn. Res. 122, 293–309 (2012).
Tolmachev, V. A., Perova, T. S. & Baldycheva, А. V. Transformation of one-dimensional silicon photonic crystal into Fabry- Pérot resonator. Proc. SPIE 7943, 1–10 (2011).
Zharova, Y. A. et al. Fabrication technology of heterojunctions in the lattice of a 2D photonic crystal based on macroporous silicon. Semiconductors 45, 1103–1110 (2011).
Perova, T. S., Tolmachev, V. A. & Baldycheva, A. Design of three-component one-dimensional photonic crystals with tuning of optical contrast and regions of transparency. Phys. Status Solidi 8, 1961–1965 (2011).
Dyakov, S. a et al. Optical spectra of two-dimensional photonic crystal bars based on macroporous Si. Proc. SPIE 7943, 1–9 (2011).
Tolmachev, V. A., Baldycheva, A. V, Dyakov, S. A., Berwick, K. & Perova, T. S. Optical Contrast Tuning in Three-Component One-Dimensional Photonic Crystals. J. Light. Technol. 28, 1521–1529 (2010).
Baldycheva, A. V., Tolmachev, V. A., Perova, T. S. & Berwick, K. Design of three-component one-dimensional photonic crystals for alteration of optical contrast and omni-directional reflection. Proc. SPIE 7713, 771321-771321–7 (2010).
Astrova, E. V, Tolmachev, V. A., Zharova, Y. A., Fedulova, G. V & Perova, T. S. Silicon periodic structures and their liquid crystal composites. Solid State Phenom. 158, 547–554 (2010).
Tolmachev, V. A., Baldycheva, A. V., Krutkova, E. Y., Perova, T. S. & Berwick, K. Optical characteristics of a one-dimensional photonic crystal with an additional regular layer. Proc. SPIE, Model. Asp. Opt. Metrol. II 7390, 739017-739017–10 (2009).

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