Publications

[1]      Purnawirman, N. Li, E.S. Magden, G. Singh, N. Singh, A. Baldycheva, E.S. Hosseini, J. Sun, M. Moresco, T.N. Adam, G. Leake, D. Coolbaugh, J.D.B. Bradley, M.R. Watts, 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 (2017) 13705. doi:10.1364/OE.25.013705.

[2]      B.T. Hogan, S.A. Dyakov, L.J. Brennan, S. Younesy, T.S. Perova, Y.K. Gun’ko, M.F. Craciun, A. Baldycheva, Dynamic in-situ sensing of fluid-dispersed 2D materials integrated on microfluidic Si chip, Sci. Rep. 7 (2017) 42120. doi:10.1038/srep42120.

[3]      B.T. Hogan, S. Dyakov, L.J. Brennan, S. Younesy, T. Perova, Y.K. Gunko, M.F. Craciun, A. Baldycheva, 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). http://arxiv.org/abs/1605.03238 (accessed May 18, 2016).

[4]      Purnawirman, Z. Su, J.D.B. Bradley, E.S. Hosseini, A. Baldycheva, G. Singh, E.S. Magden, T.N. Adam, G. Leake, D. Coolbaugh, M.R. Watts, Compact Rare-Earth-Doped Microring Lasers Monolithically Integrated on Silicon Chips, in: CLEO Eur. 2015, OSA, 2015: p. CK_12_2.

[5]      C.M. Sorace-Agaskar, P.T. Callahan, K. Shtyrkova, A. Baldycheva, M. Moresco, J. Bradley, M.Y. Peng, N. Li, E.S. Magden, P. Purnawirman, M.Y. Sander, G. Leake, D.D. Coolbaugh, M.R. Watts, F.X. KAERTNER, Integrated Mode-Locked Lasers in a CMOS-Compatible Silicon Photonic Platform, in: CLEO 2015, OSA, Washington, D.C., 2015: p. SM2I.5. doi:10.1364/CLEO_SI.2015.SM2I.5.

[6]      E.S. Hosseini, M. Moresco, Z. Su, E. Timurdogan, A. Baldycheva, J. Sun, M.R. Watts, T. Adam, G. Leake, D. Coolbaugh, Integrated Al2O3:Er3+ DFB Laser for Temperature Control Free Operation with Silicon Nitride Ring Filter, in: CLEO 2014, OSA, Washington, D.C., 2014: p. SM4G.5. doi:10.1364/CLEO_SI.2014.SM4G.5.

[7]      E.S. Hosseini, J. Sun, T.N. Adam, G. Leake, D.D. Coolbaugh, M.R. Watts, A. Baldycheva, J.D. Bradley, Erbium-Doped Laser with Multi-segmented Silicon Nitride Structure, in: Opt. Fiber Commun. Conf., OSA, Washington, D.C., 2014: p. W4E.5. doi:10.1364/OFC.2014.W4E.5.

[8]      G. V. Li, E. V. Astrova, Y.A. Zharova, S.A. Dyakov, A. V. Baldycheva, T.S. Perova, N.A. Gippius, S.G. Tikhodeev, Tunable microcavity based on macroporous Silicon : feasibility of fabrication, IEEE J. Light. Technol. 31 (2013) 2694–2609. doi:10.1109/JLT.2013.2272037.

[9]      G. V. Li, E. V. Astrova, S.A. Dyakov, A. Baldycheva, T.S. Perova, S.G. Tikhodeev, N.A. Gippius, Surface Tamm states in a photonic crystal slab with asymmetric termination, Phys. Status Solidi - Rapid Res. Lett. 7 (2013) 481–484. doi:10.1002/pssr.201307151.

[10]   A. Baldycheva, V.A. Tolmachev, K. Berwick, T.S. Perova, Multi-channel Si-liquid crystal filter with fine tuning capability of individual channels for compensation of fabrication tolerances, Nanoscale Res. Lett. 7 (2012) 1. doi:10.1186/1556-276X-7-387.

[11]   S. a. Dyakov,  a. Baldycheva, T.S. Perova, G. V. Li, E. V. Astrova, N. a. Gippius, S.G. Tikhodeev, Surface states in the optical spectra of two-dimensional photonic crystals with various surface terminations, Phys. Rev. B. 86 (2012) 115126. doi:10.1103/PhysRevB.86.115126.

[12]   A. Baldycheva, V.A. Tolmachev, T.S. Perova, Fine tunable multi-cavity Si photonic crystal filters, in: Proc. SPIE, 2012: p. 84310H–84310H–13. doi:10.1117/12.923448.

[13]   V.A. Tolmachev, A. V. Baldycheva, K. Berwick, T.S. Perova, Influence of fluctuations of the geometrical parameters on the photonic band gaps in one-dimensional photonic crystals, Prog. Electromagn. Res. 126 (2012) 285–302.

[14]   A. Baldycheva, V. a Tolmachev, T.S. Perova, Y. a Zharova, E. V Astrova, K. Berwick, Silicon photonic crystal filter with ultrawide passband characteristics., Opt. Lett. 36 (2011) 1854–6. http://www.ncbi.nlm.nih.gov/pubmed/21593913.

[15]   A. Baldycheva, V.A. Tolmachev, T.S. Perova, K. Berwick, Formation of Infrared Regions of Transparency in One-Dimensional Silicon Photonic Crystals, IEEE Photonics Technol. Lett. 23 (2011) 200–202. doi:10.1109/LPT.2010.2096412.

[16]   A. Baldycheva, V.A. Tolmachev, T.S. Perova, K. Berwick, Y.A. Zharova, E. V Astrova, Design, fabrication, and optical characterization of multicomponent photonic crystals for integrated silicon microphotonics, in: Proc. SPIE, 2011: p. 79430F–79430F–11. http://dx.doi.org/10.1117/12.875656.

[17]   V.A. Tolmachev, V.A. Melnikov, А. Baldycheva, K. Berwick, T.S. Perova, Electrically tunable Fabry-Perot resonator based on microstructured Si containing liquid crystal, Prog. Electromagn. Res. 122 (2012) 293–309. doi:17.11091506.

[18]   V.A. Tolmachev, T.S. Perova, А. V Baldycheva, Transformation of one-dimensional silicon photonic crystal into Fabry- Pérot resonator, Proc. SPIE. 7943 (2011) 1–10. doi:10.1117/12.875516.

[19]   Y.A. Zharova, G. V. Fedulova, E. V. Astrova, A. V. Baldycheva, V.A. Tolmachev, T.S. Perova, Fabrication technology of heterojunctions in the lattice of a 2D photonic crystal based on macroporous silicon, Semiconductors. 45 (2011) 1103–1110. doi:10.1134/S1063782611080239.

[20]   T.S. Perova, V.A. Tolmachev, A. Baldycheva, Design of three-component one-dimensional photonic crystals with tuning of optical contrast and regions of transparency, Phys. Status Solidi. 8 (2011) 1961–1965. doi:10.1002/pssc.201000304.

[21]   S. a Dyakov, E. V Astrova, T.S. Perova, V. a Tolmachev, G. V Fedulova, A. Baldycheva, V. Yu, S.G. Tikhodeev, N. a Gippius, Optical spectra of two-dimensional photonic crystal bars based on macroporous Si, Proc. SPIE. 7943 (2011) 1–9. doi:10.1117/12.882369.

[22]   V.A. Tolmachev, A. V Baldycheva, S.A. Dyakov, K. Berwick, T.S. Perova, Optical Contrast Tuning in Three-Component One-Dimensional Photonic Crystals, J. Light. Technol. 28 (2010) 1521–1529. doi:10.1109/JLT.2010.2047493.

[23]   A. V. Baldycheva, V.A. Tolmachev, T.S. Perova, K. Berwick, Design of three-component one-dimensional photonic crystals for alteration of optical contrast and omni-directional reflection, Proc. SPIE. 7713 (2010) 771321-771321–7. doi:10.1117/12.854977.

[24]   E. V Astrova, V.A. Tolmachev, Y.A. Zharova, G. V Fedulova, T.S. Perova, Silicon periodic structures and their liquid crystal composites, Solid State Phenom. 158 (2010) 547–554.

[25]   V.A. Tolmachev, A. V. Baldycheva, E.Y. Krutkova, T.S. Perova, K. Berwick, Optical characteristics of a one-dimensional photonic crystal with an additional regular layer, Proc. SPIE, Model. Asp. Opt. Metrol. II. 7390 (2009) 739017-739017–10. doi:10.1117/12.828222.

Invited Talks:

1.        Baldycheva, А. 2D Material Fluid Nanocomposites for Reconfigurable Integrated Optoelectronics and Si Photonics. in International Conference on Material Science, Rome, Italy (18-20 October 2017).
2.        Baldycheva, А. Wafer Scale Integration of 2D materials on Si photonics platform. in EMRS Fall 2017, Warsaw, Poland (18-21 September, 2017).
3.        Baldycheva, А. Ultra-sensitive label-free in-situ detection of fluid. in RMS Workshop: Microscopy and Microspectroscopy of Nanomaterials in Liquids, York, UK (18 September 2017).
4.        Baldycheva, А. 2D Material Liquid Crystal Nanocomposites for Reconfigurable Integrated Optoelectronics and Si Photonics. in 9th International conference on Advanced Nanomaterials ANM-2017, Aveiro, Portugal (19-21 July 2017).
5.        Baldycheva, А. Healthcare on the go: Medical Laboratory in Your Pocket. in Soapbox UK, Exeter, UK (24 June 2017).
6.        Baldycheva, А. CMOS reconfigurable opto-fluidics: towards on-chip architecting of photonic structures and devices. in Global Summit on Laser Optics & Photonics, Valencia, Spain (19-21 June 2017).
7.        Baldycheva, А. 2D Materials Liquid Crystal Nanocomposites for Optoelectornics. in 2nd International Conference on Nanotechnology and Nanomaterials in Energy (ICNNE2017), Lyon, France (7-9 July, 2017).
8.        Baldycheva, А. 2D Material Fluid Nanocomposites for Reconfigurable Integrated Optoelectronics and Si Photonics. in 9th World Congress on Materials Science and Engineering, Rome, Italy (12-14 June 2017).
9.        Baldycheva, А. 2D Material Fluid Nanocomposites for Optoelectronics and Si Photonics. in Frontier Forum on Nanoscience FFSCI-2017, Dubrovnik, Croatia (3-7 May, 2017).
10.      Baldycheva, А. 2D material enabled-CMOS reconfigurable opto-fluidics: towards on-chip architecting of metadevices. in Condenced Matter Seminar, Royal Holloway University of London, (24 Feb 2017).
11.      Baldycheva, А. et al. CMOS-Compatible Integrated Rare-Earth Doped Lasers. in The 24th Annual International Conference on Advanced Laser Technologies ALT’16 LSM-1-2 (12 Sep 2016).
12.      Baldycheva, А. CMOS reconfigurable opto-fluidics: towards on-chip architecting of metadevices. in Imperial College London, London, UK (9 May 2016).
13.      Baldycheva, А. Rare-Earth-Doped Lasers for CMOS Compatible Silicon Micro- and Nano-Photonics. in Quantum Physics Simposium, Ulm University (17-18 June 2014).
14.      Baldycheva, А. Multicomponent Photonic Crystal devices for Si Microphotonics. in B-PHOT Seminar, Vrije Universiteit Brussels (30 October 2012).
15.      Baldycheva, А. Silicon Microphotonics at Microelectronics Technology Laboratory TCD. in Women in Optics Seminar, College of Optical Sciences, University of Arizona (17 January 2012).
 

Conference and Seminar Presentations:

[1]    B. Hogan, S. Younesy, L. Brennan, T. Perova, Y. Gun’ko, S. Dyakov, M. Craciun, and A. Baldycheva, “Characterisation and Dynamic Control of Graphene-Liquid Crystal Composite Microfluidic Systems,” in The 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics- META’16, 2016, p. 4A13.
[2]    A. Baldycheva, M. Craciun, B. Hogan, S. Younesy, L. Brennan, S. Dyakov, T. Perova, and Y. Gun’ko, “Graphene Liquid Crystal nano-composites for reconfigurable integrated optoelectronics and Si photonics,” in European Materials Research Society Spring Meeting- EMRS 2016, Symposium DD: Light interaction with nanomaterials, 2016, p. DD.18.2.
[3]    Ben Hogan, S. Younesy, L. Brennan, T. Perova, Y. Gun’ko, S. Dyakov, M. Craciun, and A. Baldycheva, “Enhanced Raman scattering of liquid crystal nano-composites: an opto-fluidic approach,” in European Materials Research Society Spring Meeting- EMRS 2016, Symposium Y: Graphene and related materials from fundamental science to applications, 2016, p. Y.2.7.
[4]    A. Baldycheva, L. Brennan, A. Loudon, Y. Gunko, and T. Perova, “Investigation of composite structures based on graphene and graphene oxide,” in 5th edition of the largest European Conference & Exhibition in Graphene and 2D Materials: ImagineNano 2015, 2015.
[5]    A. Baldycheva, “Rare-Earth-Doped Lasers for CMOS Compatible Silicon Micro- and Nano-Photonics [Invited],” in Quantum Physics Simposium, Ulm University, 2014.
[6]    A. Baldycheva, V. Tolmachev, and T. S. Perova, “Integrated Si photonics sensors: in-situ polarized micro-Raman and polarized infrared investigations,” in Proceedings of the 42nd Symposium of the Scottish Microscopy Group and the 38th Symposium of the Microscopy Society of Ireland, 2014.
[7]    T. S. Perova, V. A. Tolmachev, and А. Baldycheva, “Coupled Silicon-air Fabry-Perot resonators with tunable triplet modes,” in Proceeding of the 9th International Conference on “Porous Semiconductors, Science and Technology”, PSST-2014, 2014, pp. 306–307.
[8]    E. Astrova, G. Li, T. Perova, S. Tikhodeev, L. Portsel, S. Dyakov, A. Baldycheva, D. Kostenko, and N. A. Gippius, “Optical properties of a composite microcavity based on macroporous silicon,” in Proceeding of the 9th International Conference on “Porous Semiconductors, Science and Technology”, PSST-2014, 2014, pp. 106–107.
[9]    V. Tolmachev, P. Agruzov, A. Shamray, A. Baldycheva, and T. S. Perova, “Study of optical parameters of Si photonic elements in NIR,” in Proceedings of the 8th International Conference “Basic Problems of Optics” BPO-2014, 2014.
[10]  T. S. Perova, V. A. Tolmachev, and A. Baldycheva, “Integrated Photonic Devices Based on Liquid Crystal – Silicon Photonic Crystal Composites,” in Proceedings of the 25th International Liquid Crystal Conference 2014, 2014, p. Paper 1.024.
[11]  E. S. H. Purnawirman, J. Sun, J. D. B. Bradley, A. Baldycheva, and M. R. Watts, “CMOS Compatible Erbium Doped Lasers on Silicon Chips,” in MARC 2014, MIT MTL Annual Conference, 2014.
[12]  G. V. Li, E. V. Astrova, S. A. Dyakov, A. Baldycheva, T. S. Perova, S. G. Tikhodeev, and N. A. Gippius, “Optical properties of 2D photonic crystal structures based on macroporouse Si,” in Proceedings of the 11th Russian conference “Semiconductors-2013,” 2013.
[13]  V. A. Tolmachev, A. V. Baldycheva, and T. S. Perova, “Electrotunable optical filters based on microstructured silicon infiltrated with liquid crystal for mid-infrared range,” in Book of Extended Abstracts of the 8th International Conference on Porous Semiconductors- Science and Technology, ISBN 978-84-370-7693-5, 2012.
[14]  S. D. Dyakov, T. S. Perova, A. V. Baldycheva, E. V. Astrova, G. V. Li, S. G. Tikhodeev, and N. A. Gippius, “Optical properties of two-dimensional photonic crystal bars fabricated by photoelectro-chemical etching of silicon,” in Book of Extended Abstracts of the 7th International Conference on Porous Semiconductors- Science and Technology, ISBN 978-84-370-7693-5, 2012.
[15]   A. Baldycheva, V.A. Tolmachev, K. Berwick and T.S. Perova, Widely Tunable Photonic Crystal Filters for optical interconnects on Si chip, SPIE Photonics West, January 2012, San Francisco, USA.
[16]  A. Baldycheva, V. Tolmachev, Yu. Zharova, E. Astrova, K. Berwick and T. Perova, Multi-component band-gap devices for integrated Silicon microphotonics, Photonics Ireland 2011, September 7-9, 2011.
[17]  Anna V. Baldycheva, Vladimir A. Tolmachev and Tatiana S. Perova, Influence of geometrical dimensions fluctuations on photonic band gap regions for one-dimensional silicon photonic crystals, Photonics Ireland 2011, September 7-9, 2011, Dublin, Ireland.
[18]  Sergey A. Dyakov, Ekaterina V. Astrova, Tatiana S. Perova, Vladimir A. Tolmachev, Galina V. Fedulova, Anna Baldycheva, Viktor Yu. Timoshenko, Sergei G. Tikhodeev, Nikolay A. Gippius, Two-dimensional hexagonal photonic crystals for micro-photonics application, Photonics Ireland 2011, September 7-9, 2011, Dublin, Ireland.
[19]  S. Dyakov, A. Baldycheva, T. Perova, G. Fedulova, E. Astrova, S. Tikhodeev, N. Gippius, Two-dimensional hexagonal photonic crystals for silicon micro-photonics, Proceedings of Intel European Research and Innovation Conference 2011,  12-14th of October, Intel-Lexlip, Ireland.
[20]  Tatiana S. Perova, Vladimir A. Tolmachev, and Anna V. Baldycheva, Electrically tunable Fabry-Perot resonators based on microstructured silicon and liquid crystal,  Photonics Ireland 2011, September 7-9, 2011, Dublin, Ireland.
[21]  A. Baldycheva, T. Perova, E. V. Astrova, V. A. Tolmachev, S. A. Dyakov, Yu. A.  Zharova, G. V. Fedulova, V. Yu. Timoshenko, S. G. Tikhodeev, N. A. Gippius, FT-IR Microspectroscopy for Development and Optimization of in-plane Silicon Microresonators based on 1D and 2D Photonic Crystals, Proceedings of the Microscopy Society of Ireland Annual Symposium, p. 33, 24-26 August 2011, CRANN, Trinity College Dublin, Ireland.
[22]  А. Baldycheva, V.A. Tolmachev, Yu. A.  Zharova, G. V. Fedulova, E. V. Astrova and T.S. Perova, Si micro-resonators realized in 1D and 2D photonic crystal structures, 2011 SPIE Europe Conference “Optical Metrology”, Munich, Germany, 23-26 May 2011, EOM 8083-52.