Ivan
Avrutsky
|
|
Publications
Book Chapter Patents Papers
Conferences Invited Talks ISI search: Author=Avrutsky I OR Avrutsky IA OR Avrutskii IA [1] A. M. Prokhorov, I. A. Avrutsky, P. V. Bazakutsa, V. A. Sychugov, A. V. Tischenko, “Laser-induced Surface Gratings.” in Nonlinear Surface Electromagnetic Phenomena, ed. by H.-E. Ponath and G. I. Stegeman. Elsevier, Amsterdam (1991), 525-560. [3]
Daniel G. Georgiev, Ivan Avrutsky, Ronald J. Baird, Golam
Newaz, Gregory W. Auner, “Method of forming micro-structures and
nano-structures,” US Patent 7,402,445, July 22, 2008. [2] Ivan Avrutsky, "Diffractive Imaging Spectrometer," US Patent 7,262,845, August 28, 2007. [1] Ivan Avrutsky, Hanan Anis, Toshi Makino, Jingming Xu, “Superimposed Grating WDM Tunable Lasers.” Canadian priority number 2228683, Feb. 2, 1998, US Patent 6,141,370, Oct 31, 2000. Patented through the University of Toronto, the patent licensed to Nortel Networks. Foreign Priority Certificates (4) [4] I. A. Avrutsky, V. A. Sychugov, “Multielement Semiconductor Injection Laser,” Soviet Union Priority Certificate 1,485,990 (1989). [3] I. A. Avrutsky, A. S. Svakhin, V. A. Sychugov, “Input-Output Device for a Thin-film Waveguide,” Soviet Union Priority Certificate 1,406,553 (1988). [2] I. A. Avrutsky, G. A. Bufetova, A. S. Svakhin, V. A. Sychugov, A. V. Tishchenko, “Method for determining the parameters of planar waveguides in IR region,” Soviet Union Priority Certificate 1,389,484 (1988). [1] I. A. Avrutsky, P. V. Bazakutsa, A. S. Svakhin, V. A.
Sychugov, “Focusing Planar Unit,” Soviet Union Priority Certificate 1,196,793
(1986). Journal Papers and
Full-Length Papers in Conference Proceedings (94) (Titles of the papers
published in Conference Proceedings are also listed under Conference
Presentations) 2010 (1) [94] Ivan Avrutsky, Richard
Soref, Walter Buchwald, “Sub-wavelength plasmonic modes in a conductor-gap-dielectric
system with a nanoscale gap,” Optics
Express, 18 (1), 348-363 (2010). 2000-2009 (39) [93] Pradeep Kumar, Monika K.
Wiedmann, Charles H. Winter, Ivan Avrutsky, “Optical properties of Al2O3 thin
films grown by atomic layer deposition,” Applied
Optics, 48 (28), 5407-5412 (2009). [92] A. Dixit, R. P. Panguluri,
C. Sudakar, P. Kharel, P. Thapa, I. Avrutsky, R. Naik, G. Lawes, B. Nadgorny,
“Robust room temperature persistent photoconductivity in polycrystalline
indium oxide films,” Applied Physics
Letters, 94, Art. No. 252105 (2009).
[91] Ivan Avrutsky,
“Integrated Optical Polarizer for Silicon-On-Insulator Waveguides Using
Evanescent Wave Coupling to Gap Plasmon Polaritons,” IEEE J. Selected Topics in Quantum Electronics, 14 (6), 1509-1514
(2008). [90] Julia Eizenkop, Ivan Avrutsky,
Daniel G. Georgiev, Vipin Chaudchary, “Single-pulse excimer laser nanostructuring of silicon: A heat transfer
problem and surface morphology,” Journal of Applied Physics, 103,
Art. No. 094311 (2008). [89] Justin Elser, Alexander A.
Govyadinov, Ivan Avrutsky, Ildar Salakhutdinov, and Viktor A. Podolskiy, "Plasmonic Nanolayer Composites:
Coupled Plasmon Polaritons, Effective-Medium Response, and Subdiffraction
Light Manipulation,"
Journal of Nanomaterials, Volume 2007, Art. No 79469
(2007). [88] Ivan Avrutsky, Ildar
Salakhutdinov, Justin Elser, Viktor Podolskiy, "Highly confined optical
modes in nanoscale metal-dielectric multilayers," Physical Review B,
75, Art. No. 241402 R (2007). [87] Justin Elser, Viktor A.
Podolskiy, Ildar Salakhutdinov, Ivan Avrutsky, "Nonlocal effects in
effective-medium response of nanolayered metamaterials," Applied
Physics Letter, 90, Art. No. 191109 (2007). [86] Julia Eizenkop, Ivan
Avrutsky, Gregory Auner, Daniel G. Georgiev, Vipin Chaudhary, "Single pulse
excimer laser nanostructuring of thin silicon films: Nanosharp cones
formation and a heat transfer problem," Journal of Applied Physics,
101, Art. No. 094301 (2007). [85] J. Eizenkop, D. G. Georgiev,
I. Avrutsky, G. Auner, V. Chaudhary, "Investigation of the formation of
nanostructures on silicon [84] I. Avrutsky, I. F.
Salakhutdinov, K. Chaganti, "Diffractive Imaging
Micro-Spectrometer," Invited Paper, SPIE Optics East 2006, SPIE Proceedings, vol. 6388, p. 63880Q-1 - 63880Q-8 (2006). [83] Ivan Avrutsky, Kalyani
Chaganti, Ildar Salakhutdinov, Gregory Auner, "Concept of a miniature
optical spectrometer using integrated optical and micro-optical
components," Applied Optics, 45 (30), 7811-7817 (2006). [82] Ivan Avrutsky,
Kalyani Chaganti, Ildar Salakhutdinov, Gregory Auner, “Optical
Micro-Spectrometer with Sub-Nanometer Resolution,” NSTI-Nanotech 2006,
Vol. 3, 328-331 (2006). [81] Kalyani Chaganti, Ildar Salakhutdinov,
Ivan Avrutsky, Gregory W. Auner, “A simple miniature optical spectrometer
with a planar waveguide grating coupler in combination with a plano-convex
lens,” Optics Express, 14 (9), 4064-4072 (2006). [80] Ildar Salakhutdinov, Yuriy
Danylyuk, Kalyani Chaganti, Ivan Avrutsky, Gregory Auner, “A
model-independent method for the determination of guiding thin film optical
parameters,” Applied Optics, 45 (23), 6007-6012 (2006). [79] Kalyani Chaganti, Ildar
Salakhutdinov, Ivan Avrutsky, Gregory W. Auner, “Sub-micron grating
fabrication on hafnium oxide thin-film waveguides with focused ion-beam
milling,” Optics Express, 14 (4), 1505-1511 (2006). [78] D. G. Georgiev, R. J.
Baird, I. Avrutsky, G. Auner, G. Newaz, N. Tokranova, “A Systematic Study of
the Formation of Nano-Tips on Silicon Thin Films by Excimer Laser
Irradiation,” MRS Symposium Proceedings Vol. 872, paper J13.6 (2005). [77] Ivan Avrutsky, Alexander
V. Sergienko, “Design of an integrated optical source of twin photons,” Physical
Review A, 71, Art. No. 033812 (2005). [76] B. P. Cook, H. O. Everitt,
I. Avrutsky, A. Osinsky, A. Cai, J. F. Muth, “Refractive indices of ZnSiN2 on
r-plane sapphire,” Applied Physics Letters, 86, Art. No. 121906
(2005). [75] Rabi Rabady, Ivan Avrutsky,
“Titania, silicon dioxide, and tantalum pentoxide waveguides and optical
resonant filters prepared with radio-frequency magnetron sputtering and
annealing,” Applied Optics, 44 (3), 378-383 (2005). [74] Ivan Avrutsky, “Surface
plasmons at nanoscale relief gratings between a metal and a dielectric medium
with optical gain,” Physical Review B, 70 (15), Art. No. 155416
(2004). [73] D. G. Georgiev, R. J.
Baird, I. Avrutsky, G. Newaz, G. Auner, “Controllable Excimer-Laser
Fabrication of Conical Nano-Tips on Silicon Thin Films,” Applied Physics
Letters, 84 (24), 4881-4883 (2004). [72] Ivan Avrutsky, Daniel G.
Georgiev, Dmitry Frankstein, Gregory Auner, Golam Newaz, “Superresolution in
laser annealing and ablation,” Applied Physics Letters, 84 (13),
2391-2393 (2004). [71] Rabi Rabady and Ivan
Avrutsky, “Experimental characterization of simultaneous spatial and spectral
filtering by an optical resonant filter,” Optics Letters, 29
(6), 605-607 (2004). [70] Rabi Rabady and Ivan
Avrutsky, “Fabrication methods of optical resonant filters with close to
rectangle filtering profile,” Applied Optics, 43 (5), 1114-1120
(2004). [69] Rabi Rabady, Kirill
Zinoviev, and Ivan Avrutsky, “High-resolution photometric optical monitoring
for thin films deposition,” Applied Optics, 43 (1), 143-148 (2004). [68] Rabi Rabady and Ivan
Avrutsky, “Reduced surface roughness of solid thin films prepared by
alternating biased RF magnetron sputtering,” J. Optical Society of America
(JOSA) B, 20 (10), 2174-2178 (2003). [67] Rabi Rabady and Ivan
Avrutsky, “Reliable fabrication technologies for optical resonant filters,” Applied
Optics, 42 (22), 4499-4504 (2003). [66] Rabi Rabady, Dmitry
Frankstein, and Ivan Avrutsky “Heat treatment for reduction of surface roughness
on holographic gratings,” Optics Letters 28 (18), 1665-1667 (2003). [65] I.
Avrutsky, V. Kochergin, “Optical filtering by leaky guided modes in
macro-porous silicon.” Applied Physics Letters, 82 (21), 3590-3592
(2003). [64] I.
Avrutsky, “Guided Modes in a Uniaxial Multilayer,” J. Optical Society of
America (JOSA) A, 20 (3), 548-556 (2003). [63] Ivan
Avrutsky, Rabi Rabady, Kirill Zinoviev, “Spectral and spatial filtering using
waveguide grating mirror,” Trends in Optics and Photonics (TOPS), 75,
285 – 289 (2002). [62] Ivan Avrutsky and Rabi
Rabady, “Waveguide grating mirror for large-area semiconductor lasers.” Optics
Letters, 26(13), 989-991 (2001). [61] Ivan Avrutsky,
Vladimir Kochergin, Yang Zhao, “Optical demultiplexing in a planar waveguide
with colloidal crystal,” IEEE Photonics Technology Letters, 12 (12),
1647-1649 (2000). [60] Vladimir Kochergin, Ivan
Avrutsky, Yang Zhao, “High sensitivity waveguide grating sensor based on
radiative losses.” Biosensors and Bioelectronics, 15 (5-6), 283-289
(2000). [59] Bing Li, Ivan Avrutsky,
Yang Zhao, Guangzhao Mao, “Statistical study of two-dimensional colloidal crystal
based on microscopic images and optical diffraction.” Colloids and
Surfaces A, 174 (1-2), 113 - 119 (2000). [58] I. Avrutsky, Y. Zhao, V. Kochergin,
“Surface plasmon assisted resonant tunneling of light through periodically
corrugated thin metal film.” Optics Letters, 25(9), 595-597 (2000). [57] I. Avrutsky, B. Li, Y.
Zhao, “Characterization of two-dimensional colloidal polycrystalline
materials using optical diffraction.” J. Optical Society of America B,
17(6), 904-909 (2000). [56] Yang Zhao, Ivan
Avrutsky, “Fabrication and applications of two-dimensional periodic
waveguides using colloidal crystals.” Invited Paper, SPIE's 45th Annual
Meeting, Proceedings SPIE, vol. 4110, p. 177-181 (2000). [55] Hongtao Huang, Ivan A.
Avrutsky, Yang Zhao, “Numerical analysis of integrated optical
switches/modulators: performance versus optical losses.” SPIE Photonics
West 2000, Proceedings SPIE, vol. 3944, p. 712-724, (2000). 1990-1999 (27) [54] Yang Zhao and Ivan
Avrutsky, “Two-Dimensional Corrugated Waveguides.” Optics and Photonics
News, 10(12), 17-18 (1999), Special issue: Optics in 1999. [53] Y. Zhao, I. Avrutsky, and
B. Li, “Optical coupling between mono-crystalline colloidal crystals and a
planar waveguide.” Applied Physics Letters, 75(23), 3596-3598 (1999). [52] Yang Zhao and Ivan
Avrutsky, “Two-dimensional colloidal crystal corrugated waveguide.” Optics
Letters, 24(12), 817-819 (1999). [51] A .A. Tager, R.
Gaska, I. A. Avrutsky, M. Fay, H. Chick, A. SpringThorpe, S. Eicher, J. M. Xu,
and M. Shur, “Ion Implanted GaAs/InGaAs Lateral Current Injection Laser.” IEEE
J. Selected Topics in Quantum Electronics, 5(3), 664-672 (1999). [50] Ivan A. Avrutsky,
Martin Fay, and J. M. Xu, “Multiwavelength Diffraction and Apodization using
Binary Superimposed Gratings.” IEEE Photonics Technology Letters,
10(6), 839-841 (1998). [49] Ivan A. Avrutsky, Dave
S. Ellis, Alex Tager, Hanan Anis, and J. M. Xu, “Design of Widely Tunable
Semiconductor Lasers and the Concept of Binary Superimposed Gratings
(BSG’s).” IEEE Journal of Quantum Electronics, 34(4), 729-741 (1998). [48] I. A. Avrutsky, D. S.
Ellis, A.Tager, H. Anis, and J. M. Xu, “Binary superimposed gratings for
tunable and multiwavelength semiconductor lasers.” SPIE Proceedings,
3283, p. 894-904 (1998). [47] A.Tager, R. Gaska, I. A. Avrutsky,
M. Fay, H. Chick, A. SpringThorpe, Z. Husain, M. Shur, and J. M. Xu, “Ion
implanted GaAs/InGaAs lateral injection ridge QW laser for OEICs: Study of
operation mechanisms.” Compound Semiconductors, 156, 387-390 (1998). [46] Ivan A. Avrutsky,
Reuven Gordon, R. Clayton, Jimmy Xu, “Investigations of the spectral
characteristics of 980-nm InGaAs/GaAs/AlGaAs lasers.” IEEE Journal of
Quantum Electronics, 33(10), 1801-1809 (1997). [45] I. A. Avrutskii and V. G.
Litovchenko, “A study of the excitonic characteristics in heterostructures
with quantum wells and corrugated surface.” Semiconductors, 31(7),
743-746 (1997). [44] I. A. Avrutskii, E. M.
Dianov, B. N. Zvonkov, N. B. Zvonkov, I. G. Malkina, G. A. Maksimov, E. A.
Uskova, “Semiconductor lasers with tunnel-coupled waveguides emitting at the
wavelength of 980 nm.” Quantum Electronics, 27(2), 118-121 (1997).
[43] I. A. Avrutskii, S. A.
Akhlestina, E. M. Dianov, N. B. Zvonkov, E. R. Lin’kova, G. A. Maksimov,
“Single-mode emission from injection lasers with a trapezoidal active
region,” Quantum Electronics, 26(8), 682-684 (1996). [42] I. A. Avrutskii and Yu. N.
Pyrkov, “Photomodulation spectroscopy for determining the total exciton
absorption in single quantum well.” Semiconductors, 30(1), 21-23 (1996).
[41] I. A. Avrutsky and A. V.
Vosmishev, “Phase space filling in quantum well filled by 2D electron gas and
optical transition modification.” Physics of low-dimensional structures,
10/11, 257-265 (1995). [40] Ivan A. Avrutsky and
Alexey V. Vosmishev, “Calculation of exciton suppression in quantum well
filled by 2D electron gas and resultant modification of modulation spectra.” SPIE
Proceedings 2648, 439-446 (1995). [39] Ivan A. Avrutsky and
Yury N. Pyrkov, “Modulation spectroscopy for determination of integral
excitonic absorption in single quantum well structure.” SPIE Proceedings
2648, 425-432 (1995). [38] I. A. Avrutsky, A. V.
Vasil’ev, E. M. Dianov, A. M. Prokhorov, B. N. Zvonkov, N. B. Zvonkov, I. G.
Malkina, G. A. Maksimov, “InGaP/GaAs/InGaAs quantum well lasers prepared by
atmospheric pressure metalorganic chemical vapor deposition.” in "Advanced
Materials in Optics, Electrooptics and Communication Technologies",
ed by P. Vincenzini and G. G. Righini, Techna Srl, Faenza, 359-366 (1995). [37] I. A. Avrutskii, L. M.
Batukova, E. M. Dianov, B. N. Zvonkov, N. B. Zvonkov, G. A. Maksimov, I. G.
Malkina, L. V. Medvedeva, T. N. Yan’kova, “Lasers emitting at a wavelength of
0.98 um, constructed from InGaP/GaAs heterostructures grown by MOCVD method.”
Quantum Electronics, 24(10), 859-862 (1994). [36] B. N. Zvonkov, N. B.
Zvonkov, I. G. Malkina, G. A. Maksimov, I. A. Avrutsky, A. V. Vasil’ev, E. M.
Dianov, and A. M. Prokhorov, “InGaP/GaAs/InGaAs quantum well lasers prepared
by atmospheric pressure metalorganic chemical vapor deposition.” Soviet
Lightwave Communications, 3(1), 71-76 (1993). [35] I. A. Avrutsky, E. M.
Dianov, V. G. Plotnichenko, and Yu. N. Pyrkov, “Study of InxGa1-xAs/GaAs
single quantum well homogeneity by a photomodulation technique.” Soviet
Lightwave Communications, 2(4), 321-329 (1992). [34] I. A. Avrutskii, O. P.
Osaulenko, V. G. Plotnichenko, and Yu. N. Pyrkov, “Determination of the
homogeneity of quantum wells in the InGaAs/GaAs system from photomodulation
spectra.” Soviet Physics. Semiconductors, 26(11), 1069-1072
(1992) [33] I. A. Avrutskii, V. A.
Sychugov, and B. A. Usievich, “Calculation of the exciton parameters in
stressed quantum-well InxGa1-xAs/GaAs structures.” Soviet Physics.
Semiconductors, 25(10), 1074-1077 (1991). [32] I. A. Avrutsky, A. M.
Prokhorov, and V. A. Sychugov, “Nonlinear corrugated waveguide excitation and
optical bistability.” Soviet Lightwave Communications, 1(1), 71-83
(1991). [31] I. A. Avrutskii, V. A.
Sychugov, A. V. Tishchenko, “The study of excitation, radiation and
reflection processes in corrugated waveguides,” Proceedings of IOFAN
(General Physics Institute), 34, 3-98 (1991). [30] I. A. Avrutskii, P. V.
Bazakutsa, C. P. Surov, V. A. Sychugov, A. V. Tishchenko, “Guided waves in
layered medium and their role in periodic surface structures formation,” Proceedings
of IOFAN (General Physics Institute), 34, 99-146 (1991). [29] I. A. Avrutskii and V. A.
Sychugov, “Optical bistability in an excited nonlinear corrugated waveguide.”
Soviet J. of Quantum Electronics, 20(7), 856-859 (1990). [28] I. A. Avrutsky, A. S.
Svakhin, V. A. Sychugov, and O. Parriaux, “High-efficiency single-order
waveguide grating coupler.” Optics Letters, 15(24), 1446-1448
(1990). 1984-1989 (27) [27] I. A. Avrutsky, and V. A.
Sychugov, “Reflection of a beam of finite size from a corrugated waveguide.” Journal
of Modern Optics, 36(11), 1527-1539 (1989). [26] I. A. Avrutsky, A. S.
Svakhin, and V. A. Sychugov, “Interference phenomena in waveguide with two
corrugated boundaries.” Journal of Modern Optics, 36(10), 1303-1320
(1989). [25] I. A. Avrutskii, A. S.
Svakhin, and V. A. Sychugov, “An efficient grating coupler.” Soviet
Physics. Technical Physics, 34(7), 749-752 (1989). [24] I. A. Avrutskii, G. A.
Bufetova, V. A. Sychugov, A. V. Tishchenko, and T. Yu. Yaroshenko, “Two-layer
waveguides with corrugated boundaries and the radiation of light from them,” Soviet
Physics. Technical Physics, 34(11), 1428-1253 (1989). [23] I. A. Avrutskii, V. A.
Sychugov, A. V. Tishchenko, and A. S. Svakhin, “Unidirectional coupling of
radiation out of a composite dielectric waveguide,” Soviet J. of
Quantum Electronics, 19(2), 225-228 (1989). [22] I. A. Avrutskii and V. A.
Sychugov, “Anomalous reflection of light from the surface of an amplifying
corrugated waveguide.” Soviet J. of Quantum Electronics, 19(2),
235-237 (1989). [21] I. A. Avrutskii, A. S.
Svakhin, and V. A. Sychugov, “Method of measuring “nonradiative” losses in
corrugated waveguides.” Soviet J. of Optical Technology, 56(6),
332-334 (1989). [20] I. A. Avrutskii and V.
A. Sychugov, “Anomalous reflection with noncolinear excitation of a
corrugated waveguide.” Soviet Physics. Lebedev Institute Reports, No
7, 45-48 (1988). [19] I. A. Avrutskii and V. A.
Sychugov, “Interference between waveguide modes on reflection of light from
the surface of a corrugated waveguide.” Soviet J. of Quantum Electronics,
18(3), 366-368 (1988). [18] I. A. Avrutskii, V. P.
Duraev, E. T. Nedelin, A. M. Prokhorov, A. S. Svakhin, V. A. Sychugov, and A.
V. Tishchenko, “Optimization of the characteristics of a dispersive element
based on a corrugated waveguide.” Soviet J. of Quantum Electronics,
18(3), 362-365 (1988). [17] I. A. Avrutskii, V. I.
Baryshev, V. P. Duraev, E. T. Nedelin, A. S. Svakhin, V. A. Sychugov, T. V.
Tulaikova, V. I. Shveikin, and V. V. Shishkov, “Radiation sources for
fiber-optic communication lines with wavelength-division multiplexing of data
channels in the range 1.3-1.6 um.” Soviet J. of Quantum Electronics,
18(4), 446-448 (1988). [16] I. A. Avrutskii, V. P.
Duraev, E. T. Nedelin, A. M. Prokhorov, A. S. Svakhin, and V. A. Sychugov,
“Single-frequency semiconductor laser with lambda=1.3um and with a fiber
external resonator.” Soviet Technical Physics Letters, 13(7), 353-355
(1987). [15] I. A. Avrutskii, G. A.
Golubenko, A. S. Svakhin, V. A. Sychugov, and A. V. Tishchenko, “Analysis of
structural changes on the surface of a layer medium exposed to laser
radiation.” Soviet J. of Quantum Electronics, 17(1), 37-39 (1987). [14] I. A. Avrutskii, G. A.
Bufetova, A. S. Svakhin, V. A. Sychugov, and A. V. Tishchenko, “Planar
waveguides with leaky modes and determination of their parameters.” Soviet
J. of Quantum Electronics, 17(4), 559-561 (1987). [13] I. A. Avrutskii and V. A.
Sychugov, “Reflection of light from the surface and propagation
characteristics of a double-sided corrugated waveguide,” Soviet J. of
Quantum Electronics, 17(6), 722-724 (1987). [12] I. A. Avrutskii, G. A.
Golubenko, A. S. Svakhin, V. A. Sychugov, and A. V. Tishchenko, “Formation of
periodic microrelief on the surface of a laser-irradiated waveguide
structure.” Soviet Physics. Technical Physics, 32(1), 122-123 (1987). [11] I. A. Avrutskii and V.
A. Sychugov, “Reflection of a bounded light beam from the surface of a
periodically perturbed waveguide.” Soviet Physics. Technical Physics,
32(2), 235-236 (1987). [10] I. A. Avrutskii, A. S.
Svakhin, and V. A. Sychugov, “Transformations of a light beam on reflection
from the surface of a corrugated waveguide.” Optics and Spectroscopy
(USSR), 63(2), 198-200 (1987). [9] I. A. Avrutskii, G. A.
Golubenko, V. A. Sychugov, and A. V. Tishchenko, “Spectral and laser
characteristics of a mirror with a corrugated waveguide on its surface.” Soviet
J. of Quantum Electronics, 16(8), 1063-1065 (1986). [8] I. A. Avrutskii and V. A.
Sychugov, “Reflection of a Gaussian light beam from the surface of a
corrugated waveguide.” Soviet J. of Quantum Electronics, 16(11),
1558-1559 (1986). [7] I. A. Avrutskii, G. A.
Golubenko, V. A. Sychugov and A. V. Tishchenko, “Light reflection from the
surface of a corrugated waveguide.” Soviet Technical Physics Letters,
11(8), 401-402 (1985). [6] I. A. Avrutskii, P. V.
Bazakutsa, A. M. Prokhorov, V. A. Sychugov, “Thermophysical mechanism for the
deepening and motion of periodic structure on Germanium.” Soviet Technical
Physics Letters, 11(5), 258-260 (1985). [5] I. A. Avrutskii, P. V.
Bazakutsa, V. L. Maslennikov, A. M. Prokhorov, V. A. Sychugov, and A. V.
Tishchenko, “Periodic microrelief on the surface of Ge and the thermophysical
mechanisms of its formation.” Bulletin of the Academy of Sciences of the
USSR, Physical Series, 49(6), 175-178 (1985). [4] I. A. Avrutskii, P. V.
Bazakutsa, A. M. Prokhorov, and V. A. Sychugov, “Motion of a periodic surface
microrelief under the action of high-power laser radiation.” Soviet J. of
Quantum Electronics, 15(3), 429-430 (1985). [3] I. A. Avrutskii, P. V.
Bazakutsa, V. L. Maslennikov, A. M. Prokhorov, and V. A. Sychugov,
“Feasibility of experimental identification of the thermophysical mechanism
of formation of periodic surface structures.” Soviet J. of Quantum
Electronics, 15(11), 1573-1574 (1985). [2] I. A. Avrutskii, P. V.
Bazakutsa, V. A. Sychugov, and A. V. Tishchenko, “Periodic microrelief on a
germanium surface and the thermophysical mechanism for its formation.” Soviet
Technical Physics Letters, 10(11), 563-565 (1984). [1] I. A. Avrutskii, P. V.
Bazakutsa, A. M. Prokhorov, V. A. Sychugov, and A. V. Tishchenko ,
“Self-deepening of the dielectric constant modulation at a germanium surface
in an intense light wave.” Soviet Technical Physics Letters, 10(9),
461-463 (1984). (Titles of the invited papers are also listed under Invited
Talks) [39] I. Avrutsky, I. F.
Salakhutdinov, K. Chaganti, "Diffractive Imaging Micro-Spectrometer,"
Invited Paper, SPIE Optics East 2006, Paper
6388-29, Boston, MA, October 1-4, 2006. [38] D. G. Georgiev, R. J.
Baird, I. Avrutsky, J. Eizenkop, G. Auner, G. Newaz, “Nano-sharp Micro-cone
Structures on Si Thin Films by Single Pulse Laser Irradiation,” paper L12.5, Spring
2006 Meeting of Material Research Society (MRS), San Francisco, CA, April
17 - 21, 2006. [37] Ivan Avrutsky, Kalyani
Chaganti, Ildar Salakhutdinov, Gregory Auner, “Miniature optical spectrometer
with sub-nanometer resolution,” paper P9, Optical Solutions for Homeland
and National Security, Washington, D.C., December 15-16, 2005. [36] Yuriy Volodymyr
Danylyuk, Ildar Salakhutdinov, Ivan Avrutsky, Gregory Auner, “Optical
waveguides of wurtzite Al1-xInxN/AlN/Sapphire
structures prepared by plasma source molecular beam epitaxy technique,” paper
FF23.5, Fall 2005 Meeting of Materials Research Society (MRS), Boston,
MA, November 28 - December 2, 2005. [35] Ildar Salakhutdinov, Yuriy V. Danilyuk, Kalyani Chaganti, Ivan
Avrutsky, Gregory Auner, “A new model-independent method for the
determination of guiding thin film optical parameters,” paper
FThQ5, Frontiers in Optics 2005/Laser science XXI, Tucson,
Arizona, October 16-20, 2005. [34] Kalyani Chaganti, Ildar
Salakhutdinov, Ivan Avrutsky, John Mansfield, Gregory W. Auner, “Linear and
chirped gratings on thin-film waveguides with focused ion-beam milling,”
paper FThQ6, Frontiers in Optics 2005/Laser science XXI, Tucson,
Arizona, October 16-20, 2005. [33] J. Eizenkop, D. G.
Georgiev, I. Avrutsky, G. Auner, V. Chaudhary, “Investigation of the
formation of nanostructures on silicon thin films after excimer laser
irradiation,” paper TuPO81.234, 8-th International Conference on Laser
Ablation COLA’05, Banff, Canada, September 11-16, 2005. [32] Ivan Avrutsky,
“Gain-Assisted Nanoscale Surface Plasmons,” paper JTuC107, CLEO/QELS-2005
Conference on Lasers and Electro Optics / Quantum Electronics and Laser
Science Conference, Baltimore, Maryland, May 22-27, 2005. [31] D. G. Georgiev, R. J.
Baird, I. Avrutsky, G. Auner, G. Newaz, N. Tokranova, “A Systematic Study of
the Formation of Nano-Tips on Silicon Thin Films by Excimer Laser
Irradiation,” paper J13.6, Spring 2005 Meeting of Materials Research
Society (MRS), San Francisco, CA, March 28 – April 1, 2005. [30] John F. Muth, Andrei
Osinsky, Henry Everitt, Ivan Avrutsky, “Optical Properties of II-IV-N2
Semiconductors,” paper E11.45, Fall 2004 Meeting of Materials Research
Society (MRS), Boston, MA, November 29- December 3, 2004. [29] Kalyani Chaganti, Ivan Avrutsky,
Gregory W. Auner, “Building a diffractive imaging micro-spectrometer,” paper
FWH36, Frontiers in Optics 2004/Laser Science XX, Rochester, NY,
October 10-14, 2004. [28] Ivan Avrutsky,
Alexander V. Sergienko, “Design of integrated optical source of
polarization-entangled photon pairs,” paper FA2, Nonlinear Optics:
Materials, Fundamentals and Applications, OSA Topical Meeting, Waikoloa,
Hawaii, August 2-6, 2004. [27] Kalyani Chaganti, Ivan
Avrutsky, Gregory W. Auner, “Waveguide grating based diffractive micro
spectrometer,” Advances and Applications of Scanning Probe Microscopy,
31st Annual Spring Symposium, Michigan Chapter of the AVS, poster
session, Detroit, Michigan, May 17, 2004. [26] Ivan Avrutsky, Daniel
Georgiev, Dmitry Frankstein, Golam Newaz, Gregory Auner, “Sub-diffraction
resolution in laser ablation of thin films,” paper U33-9, American
Physical Society, March Meeting 2004, Montreal, Canada, March 22-26,
2004. [25] Yuriy Danylyuk, Ivan
Avrutsky, Gregory Auner, Ratna Naik, Vaman Naik, “Nonequilibrium beta-AlN on
c-plane Al2O3 grown by plasma source MBE,” paper
N10-10, American Physical Society, March Meeting 2004, Montreal,
Canada, March 22-26, 2004. [24] Ivan Avrutsky, Vladimir
Kochergin, Philip R. Swinehart, “Optical filtering by leaky waveguides,”
paper ThFF6, 2003 Frontiers in Optics/Laser Science XIX, Tucson, AR,
October 5 - 9, 2003. [23] Yuriy Danylyuk, Ivan Avrutsky, Gregory Auner, Ratna Naik,
Vaman Naik, “Nonequilibrium cubic AlN on sapphire (0001) grown by plasma
source molecular beam epitaxy,” The 8-th Wide-Bandgap III-Nitride Workshop,
Richmond, Virginia, September 29 – October 1, 2003. [22] I. Avrutsky, “Design of an imaging spectrometer for
lab-on-a-chip applications,” paper P7, Optical Sensing for Homeland
Security, Washington, DC, February 19-20, 2003. [21] Ivan Avrutsky, “General
case of guided modes in a uniaxial multilayer,” OSA-2002/ILS-XVIII,
paper TuI3, Orlando, Florida, September 29 - October 3, 2002. [20] Ivan Avrutsky, Rabi
Rabady, Kirill Zinoviev, “Spectral and spatial filtering using waveguide
grating mirror.” Invited, OSA Topical Meeting on Diffractive Optics and
Micro Optics (DOMO 2002). Paper DWB1, DOMO 2002, Tucson, AZ, June 3-7,
2002. [19] Ivan Avrutsky and Rabi
Rabady, “Mode selection in large area semiconductor lasers using waveguide
grating mirror.” OSA-2001/ILS-XVII, paper TuR6, Long Beach,CA, October
14-18, 2001. [18] Ivan Avrutsky, Vladimir
Kochergin, Yang Zhao, “Optical demultiplexing using colloidal crystal
waveguides.” OSA-2000/ILS-XVI, paper WW6, Providence, Rhode Island,
October 22-26, 2000. [17] Ivan Avrutsky, Yang
Zhao, Vladimir Kochergin, “Surface plasmon assisted tunneling of light
through thin metal film.” OSA-2000/ILS-XVI, paper ThQ5, Providence,
Rhode Island, October 22-26, 2000. [16] Y. Zhao, I. A.
Avrutsky, “Fabrication and applications of two-dimensional periodic
waveguides using colloidal crystals.” Invited, SPIE's 45th Annual Meeting,
Conference on Photorefractive Fiber and Crystal Devices: Materials, Optical
Properties, and Applications VI. July 30 - August 2, 2000, San Diego,
California. [15] Hongtao Huang, Ivan A.
Avrutsky, Yang Zhao, “Numerical analysis of integrated optical
switches/modulators: performance versus optical losses.” Physics and
Simulation of Optoelectronic Devices VIII. 2000 Photonics West San
Jose, CA, Jan. 22-28, 2000. [14] Yang Zhao, Ivan
Avrutsky, and Bing Li, “Two-dimensional corrugated waveguides using colloidal
crystals.” OSA-99/ILS-XV, paper TuDD2, Santa Clara, CA, September
26-30, 1999. [13] Ivan Avrutsky, Vladimir
Kochergin, and Yang Zhao, “Optical bio-sensors based on diffraction
efficiency of waveguide gratings.” OSA-99/ILS-XV, paper TuXX44, Santa
Clara, CA, September 26-30, 1999. [12] I. A. Avrutsky, D. S.
Ellis, A.Tager, H. Anis, and J. M. Xu, “Binary superimposed gratings for
tunable DBR lasers.” Optical Fiber Communication Conference, 2, 1998
OSA Technical Digest Series, 338-386 (1998). OFC’98, San Jose, CA,
Feb. 22-27, 1998. [11] I. A. Avrutsky, D. S.
Ellis, A.Tager, H. Anis, and J. M. Xu, “Binary superimposed gratings for
tunable and multiwavelength semiconductor lasers.” The 14th International
Symposium on Optoelectronics OE’98, 1998 Photonics West San Jose, CA,
Jan. 24-30, 1998. [10] A.Tager, R. Gaska, I.
A. Avrutsky, M. Fay, H. Chick, A. SpringThorpe, Z. Husain, M. Shur, and J. M.
Xu, “Ion implanted GaAs/InGaAs lateral injection ridge QW laser for OEICs:
Study of operation mechanisms.” The 24th International Symposium on Compound
Semiconductors, San Diego, CA., Sept. 8-11, 1997. [9] R. Gordon, I.A.
Avrutsky, J. M. Xu, “Frequency Locking in Beam Steering High Power Lasers.”
Lasers and Electro-Optics Society Annual Meeting, paper ThX7, San Francisco,
CA, November 10-13, 1997. LEOS '97 Conference Proceedings, IEEE, vol.
2, 490-491. [8] I. A. Avrutsky, R.
Gordon, J. M. Xu, R. Clayton, “Investigations of the spectral characteristics
of 980-nm fiber pump lasers.” CLEO’97, paper CThA7 (1997 OSA Technical
Digest Series, 11, 317-318). Baltimore, ML, May 18-23, 1997. [7] I. A. Avrutsky, D.
Routkevitch, M. Moscovits, J. Xu, “Optical characterization of semiconductor
nanowires fabricated by electrodeposition into porous alumina.” The
Electrochemical Society Meeting Abstracts 97-1, 542 (1997). Montreal,
Quebec, May 4-9, 1997. [6] Ivan A. Avrutsky, Alexey
V. Vosmishev, “Screening and phase filling in quantum well filled by 2D
electron gas and modification of modulation spectra,” 2-nd International
Conference Physics of Low-Dimensional Structures, PLDS-2, September
18-22, 1995, Dubna, Russia. [5] Ivan A. Avrutsky and
Alexey V. Vosmishev, “Calculation of exciton suppression in quantum well
filled by 2D electron gas and resultant modification of modulation spectra.”
SPIE Proceedings 2648, 439-446 (1995). Optical Diagnostics of Materials
and Devices for Opto-, Micro-, and Quantum Electronics, Kiev, Ukraine,
11-13 May, 1995. [4] Ivan A. Avrutsky and
Yury N. Pyrkov, “Modulation spectroscopy for determination of integral
excitonic absorption in single quantum well structure.” Optical
Diagnostics of Materials and Devices for Opto-, Micro-, and Quantum
Electronics, Kiev, Ukraine, 11-13 May, 1995. [3] I. A. Avrutsky, A. V.
Vasil’ev, E. M. Dianov, A. M. Prokhorov, B. N. Zvonkov, N. B. Zvonkov, I. G.
Malkina, G. A. Maksimov, “InGaP/GaAs/InGaAs quantum well lasers prepared by
atmospheric pressure metalorganic chemical vapor deposition.” 8-th CIMTEC,
Florence, Italy, June 28 - July 4, 1994. [2] I. A. Avrutsky, G. A.
Golubenko, A. S. Svakhin, V. A. Sychugov, A. V. Tischenko, “Total ‘external’
light reflection from the surface of a periodically corrugated waveguide,” International
Symposium on Surface Waves in Solid and Layered Structures, vol. II,
178-180, Novosibirsk, Russia, 1986. [1] I. A. Avrutsky, G. A.
Golubenko, A. S. Svakhin, V. A. Sychugov, A. V. Tischenko, “The periodic
microrelief on the layered medium surface under laser irradiation influence,”
International Symposium on Surface Waves in Solid and Layered Structures,
vol. I, 263-264, Novosibirsk, Russia, 1986. Invited
Seminars and Conference Talks (11) [11] I. Avrutsky, I. F.
Salakhutdinov, K. Chaganti, "Diffractive Imaging
Micro-Spectrometer," Invited Paper, SPIE Optics
East 2006, Paper 6388-29, Boston, MA, October 1-4, 2006. [10] Ivan Avrutsky,
"True Nanoscale Photonics with Surface Optical Plasmons," Seminar
of Michigan Chapter of OSA (Optical Society of America), University of
Michigan, September 12, 2006. [9] Ivan Avrutsky,
"Integrated Optics and Nanophotonics," invited seminar at North
Carolina State University, March 2, 2006. [8] Ivan Avrutsky,
"Slow Light Using Gain-Assisted Resonant Surface Plasmons," Physics
Department Colloquium, Wayne State University, February 2, 2006. [7] Ivan
Avrutsky, "Subwavelength and Nanoscale
Optics," Physics Department Seminar, Wayne State University,
October 25, 2005. [6] Ivan Avrutsky,
"Optics at Nanoscale," Physics Department Seminar, SUNY at
Albany, September 17, 2004. [5] Ivan Avrutsky, “Spectral and Spatial Filtering Using Waveguide grating mirror,” Physics Department Seminar, Wayne State University, December 3, 2002. [4] Ivan Avrutsky, Rabi Rabady, Kirill Zinoviev, “Spectral and spatial filtering using waveguide grating mirror.” Invited Paper, OSA Topical Meeting on Diffractive Optics and Micro Optics (DOMO 2002). Paper DWB1, DOMO 2002, Tucson, AZ, June 3-7, 2002. [3] Ivan Avrutsky, “Resonant Interactions in Waveguide Gratings,” Seminar of Albuquerque Chapter of LEOS (Laser and Electro-Optic Society), University of New Mexico, Albuquerque, NM, January 17, 2001. [2] Ivan Avrutsky, “High Brightness Semiconductor Lasers Using Waveguide Grating Mirror,” Invited presentation at Kirtland Air Force Base, Albuquerque, NM, January 16, 2001. [1] Y. Zhao, I. A. Avrutsky, “Fabrication and applications of two-dimensional periodic waveguides using colloidal crystals.” Invited Paper, SPIE's 45th Annual Meeting, Conference on Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications VI. July 30 - August 2, 2000, San Diego, California.
|
|
|
|
E-mail to avrutsky@eng.wayne.edu
|
