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Publications of Optolink's customers: 

Papers of NASA Goddard Space Flight Center group about successfull application of SRS2000 fiber-optic gyroscopes in project Balloon Experimental Twin Telescope for Infrared Interferometry (BETTII):

  1. Benford D.J., Fixsen D.J., Rinehart S.A., Rizzo M., Maher S.F., Barry R.K.. Precision attitude control for the BETTII balloon-borne interferometer // In Proceedings of SPIE, Ground-based and Airborne Telescopes IV (Vol. 8444, p. 84442P). International Society for Optics and Photonics, 2012,  
  2. Rizzo M.J., Rinehart S.A., Alcorn J.B., Barclay R.B., Barry R.K., Benford D.J., Leisawitz D.T. Building an interferometer at the edge of space: pointing and phase control system for BETTII // In Proceedings of SPIE, Space Telescopes and Instrumentation 2014: Optical, Infrared, and Millimeter Wave (Vol. 9143, p. 91433H). International Society for Optics and Photonics, 2014.
  3. Rinehart S.A., Rizzo M., Benford D.J., Fixsen D.J., Veach T.J., Dhabal A., & Staguhn J.G. The balloon experimental twin telescope for infrared interferometry (BETTII): an experiment for high angular resolution in the far-infrared  // Publications of the Astronomical Society of the Pacific, 126(941), 660. 2014.
  4. Rizzo M.J., Rinehart S.A., Dhabal A., Ade P., Benford D.J., Fixsen D.J.,& Mentzell E. The balloon experimental twin telescope for infrared interferometry (BETTII): towards the first flight // In Proceedings of SPIE, Ground-based and Airborne Instrumentation for Astronomy VI (Vol. 9908, p. 99080S). International Society for Optics and Photonics. 2016.
  5. De Lorenzo J.V.H., Nehmetallah G., & Rinehart S.A.. Attitude control system for a balloon based telescope  // In Proceedings of SPIE, Signal Processing, Sensor/Information Fusion, and Target Recognition XXVII (Vol. 10646, p. 106461P). International Society for Optics and Photonics. 2018.
  6. Vila Hernández de Lorenzo J., Rinehart S. A., Rizzo M., Casalprim M., Maher S., Dhabal A., Nehmetallah G., Fixsen D. J., Veach T., Esteves F. Flight performance of the attitude control system of the balloon experimental twin telescope for infrared interferometry (BETTII) // In Proceedings of SPIE, Ground-based and Airborne Telescopes VII (Vol. 10700, p. 1070067). International Society for Optics and Photonics. 2018.
  7. Rinehart S. A., Dhabal A., Fixsen D., Juanola-Parramon R., Leisawitz D., Maher S., Mentzell J. E., Mundy L., Rizzo M., Sampler H., Sharp E., Silverberg R., Casalprim Torres M., Veach T., Vila Hernández de Lorenzo J., Ade P. A. R., Tucker C., Pascale E., Savini G. The Balloon Experimental Twin Telescope for infrared interferometry (BETTII): first flight // In Proceedings of SPIE, Ground-based and Airborne Telescopes VII (Vol. 10700, p. 107000F). International Society for Optics and Photonics. 2018.

Papers of austrian scientists about first experimental observation and investigations of Lense-Thirring effect in Earth conditions by using SRS-1000 fiber-optic gyroscopes: 

  1. Tajmar, M., Plesescu F., Seifert B.. Anomalous fiber optic gyroscope signals observed above spinning rings at low temperature // Journal of Physics: Conference Series. Vol. 150. No. 3, 032101, 2009.
  2. Tajmar M.,  Plesescu F.. Fiber-Optic Gyroscope Measurements Close to Rotating Liquid Helium // AIP Conference Proceedings. Vol. 1208. No. 1, 2010.  
  3. Tajmar M. Evaluation of enhanced frame-dragging in the vicinity of a rotating niobium superconductor, liquid helium and a helium superfluid // Superconductor Science and Technology, 24(12), 125011, 2011.

Papers  presenting the experimental results of measuring precision parameters of fiber-optic gyroscopes SRS1000 :

Tajmar M., Plesescu F., Seifert B.  Precision angular velocity response of a fiber-optic gyroscope using a piezo-nano-rotation table // Measurement Science and Technology, 20(2), 027002, 2008.

and SRS-2000:

Lv P., Liu J., Lai J., Huang K. Allan variance method for gyro noise analysis using weighted least square algorithm // Optik-International Journal for Light and Electron Optics, 126(20), 2529-2534, 2015.

Papers  presenting successfull application of TRS500 three-axis fiber-optic gyroscopes and IMU500 inertial measurement units for underground navigation of the oil - and gas- pipeline inspection systems:

  1. Nikishin V.B., Sinev A.I., Plotnikov P.K., Naumov S.G.  Accuracy improvement of underground navigation on the basis of integration of SINS, odometers and GPS/GLONASS receivers // In Proceedings.of 17th Saint Petersburg International Conference on Integrated Navigation Systems (pp. 185-190), 2010.
  2. Vavilova N.B., Golovan A.A., Kozlov A.V., Nikitin I.V., Panyov A.A., Parusnikov N.A.,& Afanasyev  A.V.. A navigation system of a pipeline inspection system for oil and gas pipelines: the results of the development and testing // In Proceedings.of 22nd Saint Petersburg International Conference on Integrated Navigation Systems (pp. 357-362), 2015.

Papers of Optiolink's customers about successfull applications of Optolink's fiber-optic gyroscopes, inertial measurement units and strapdown inertial navigation systems in different land, air, space amd marine fields:  

  1. Belsky L.N., Vodicheva L.V., Parysheva Yu.V. A Strapdown Inertial Navigation System for Space Launch Vehicles: Initial Alignment Accuracy and Periodic Calibrations // In Proceedings.of 25th Saint Petersburg International Conference on Integrated Navigation System.. pp.371-374 2018.
  2. Chernodarov A.V., Patrikeev A.P., Karpov O.A. In-Flight Development of SINS-500NS Satellite Inertial Navigation System at High Latitudes // In Proceedings.of 25th Saint Petersburg International Conference on Integrated Navigation System. pp.417-420, 2018.
  3. Chernodarov A.V., Patrikeev A. P., Kaz′min O. O., Khrushchev A.V., Ovchinnikov I.V. Flight Development of a Gravity-and-Satellite Data-Aided Inertial Navigation System // In Proceedings.of 23rd Saint Petersburg International Conference on Integrated Navigation System. pp.284-287, 2016
  4. Chernodarov A.V., Patrikeev A.P., Kovregin V.N., Kovregina G.M. Using an Inertial Satellite Navigation System for Determination of Motion Parameters of the Radar Antenna Phase Center // In Proceedings.of 23rd Saint Petersburg International Conference on Integrated Navigation System. pp.315-323, 2016
  5. Zlatkin O.Yu., Oleynik S.V., Chumachenko A.V., Kuznetsov Yu.A., Kozhuhov V.D., Uspensky V.B., Gudzenko A.V. The Development of a High-Precision Strapdown Inertial System Based on Medium-Accuracy Fiber-Optic Gyroscopes for Space and Rocket Applications // In Proceedings.of 21st Saint Petersburg International Conference on Integrated Navigation System. pp.330-344, 2014
  6. Burov D.A, Verzunov E.I. Creation of Orientation Systems for Mobile Robots // In Proceedings.of 21st Saint Petersburg International Conference on Integrated  Navigation System. pp.391-397, 2014
  7. Plotnikov P.K.,. Mikheyev A.V, Naumov S.G. Errors of a Strapdown Gyrocompass for Objects with Unlimited Turning Angles // In Proceedings.of 20th Saint Petersburg International Conference on Integrated Navigation System. pp.72-74, 2013
  8. Zlatkin Yu.M., Oleynik S.V., Kuznetsov Yu.A.. Uspenskiy V.B.; Bagmut I.A. Technology and Results of Tests of the Strap-Down Star-Inertial unit for Control Systems of Spacecraft // In Proceedings.of 19th Saint Petersburg International Conference on Integrated Navigation System. pp.238-241, 2012
  9. Bilik V.V., Kovregin V.N., Chernodarov A.V., Patrikeev A.P. A Spatially Distributed Micronavigation System for a Synthetic – Aperture Radar // In Proceedings.of 18th Saint Petersburg International Conference on Integrated Navigation System. pp.207-215, 2011

 

Publications of Optolink's employees: 

  1. Yu.N.Korkishko, V.A.Fedorov, S.V.Prilutskiy, D.V.Obuhovich, V.E.Prilutskiy, V.G.Ponomarev, I.V.Fedorov, A.I.Zuev, V.K.Varnakov, S.M.Kostritskiy, I.V.Morev. Miniature inertial measurement units IMU200 and IMU400 based on FOG with MEMS-accelerometers: development and studying of characteristics // in Proc. 29th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 30-June 01, 2022, pp.241-245.
  2. S.M.Kostritskii,Yu.N.Korkishko, V.A.Fedorov, A.V.Yatsenko. Pyroelectric drift of integrated-optical LiNbO3 modulators // Ferroelectrics, 2021, Vol. 574, No. 1, pp. 170-178 (doi: 10.1080/00150193.2021.1888062)
  3. Yu.N.Korkishko, V.A.Fedorov, S.V.Prilutskiy, D.V.Obuhovich, I.V.Fedorov,  V.E.Prilutskiy, V.G.Ponomarev, A.I.Zuev, V.K.Varnakov, I.V.Morev, S.M.Kostritskii. Compact near-navigation-grade IFOG inertial measurement unit IMU400  // in Proc. 2020 DGON Inertial Sensors and Systems (ISS), Braunschweig, Germany, 15-16 September 2020, p.P07.1-P07.17.  (doi: 10.1109/ISS50053.2020.9244909)  
  4. Yu.N. Korkishko, V.A. Fedorov, V.E. Prilutskiy, V.G. Ponomarev, S.V. Prilutskiy, D.V. Obuhovich, I.V. Fedorov, A.I.Zuev, V.K.Varnakov, S.M. Kostritskii, I.V. Morev. Ultra-compact navigation-grade Inertial Measurement Unit IMU400 // in Proc. 2020 IEEE International Symposium on Inertial Sensors and Systems (INERTIAL), Hiroshima, Japan, 23-26 March 2020, pp.1-4, doi: 10.1109/INERTIAL48129.2020.9090072
  5. Yu.N. Korkishko, V.A. Fedorov, V.E. Prilutskiy, V.G. Ponomarev, I.V. Fedorov, S.M. Kostritskii, I.V. Morev, D.V. Obuhovich, S.V. Prilutskiy, A.I.Zuev, V.K.Varnakov. High-precision inertial measurement unit IMU-5000 // in Proc. 5th IEEE International Symposium on Inertial Sensors and Systems, Lake Como, Italy, 26-29 March 2018, p.111-114. (doi: 10.1109/ISISS.2018.8358121)
  6. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Fedorov,  S.M.Kostritskii, I.V.Morev, D.V.Obuhovich, S.V. Prilutskiy, A.I.Zuev, V.K.Varnakov. Highest bias stability fiber-optic gyroscope SRS-5000  // in Proc. 2017 DGON Inertial Sensors and Systems (ISS), Karlsruhe, Germany, 19-20 September 2017, p.P03.1-P03.23. (doi: 10.1109/InertialSensors.2017.8171490)
  7. A.V.Chernodarov, A.P.Patrikeev, A.B.Borzov, I.I.Merkulova, Yu.N. Korkishko, V.A.Fedorov, I.V.Fedorov. Seminatural Development of Multiposition Inertial Satellite Navigation Systems Built Around Fiber-Optic and Micromechanical Sensors // in Proc. 24h Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 29-31, 2017, pp.148-151.
  8. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, A.I.Morev, D.V.Obuhovich, S.M.Kostritskii, A.I.Zuev, V.K.Varnakov, A.V. Belashenko, E.N.Yakimov, G.V.Titov, A.V.Ovchinnikov, I.B.Abdul’minov, S.V.Latyntsev. Space grade fiber optic gyroscope: R&D results and flight tests  // in Proc. 2016 DGON Inertial Sensors and Systems (ISS), Karlsruhe, Germany, 20-21 September 2016, p.21.1-21.19.  
  9. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, D.V.Obuhovich, S.M.Kostritskii, I.V.Fedorov, A.I.Zuev, V.K.Varnakov  High precision fiber-optic gyro with extended dynamic range //  in Proc. 3rd IEEE International Symposium on Inertial Sensors and Systems, Laguna Beach, USA, 23-25 February 2016, p.42-46
  10. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, D.V.Obuhovich, S.M.Kostritskii, A.I.Zuev, V.K.Varnakov, A.V. Belashenko, E.N.Yakimov, G.V.Titov, A.V.Ovchinnikov, I.B.Abdul’minov, S.V.Latyntsev. Fiber optic gyro for space applications. Results of R&D and  flight tests // in Proc. 3rd IEEE International Symposium on Inertial Sensors and Systems, Laguna Beach, USA, 23-25 February 2016, p.37-41.
  11. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskii, V.G.Ponomarev, I.V.Morev, S.F.Skripnikov, M.I.Khmelevskaya, A.S.Buravlev, S.M.Kostritskii, I.V.Fedorov, A.I.Zuev, V.K.Varnakov. Strapdown Inertial Navigation Systems Based on Fiber Optic Gyroscopes // Gyroscopy and Navigation, 2014, Vol. 4, No. 4, pp. 195–204. 
  12. Yu.Korkishko, V.Fedorov, V.Prilutskii, V.Ponomarev, I.Morev, D. Obuhovich, S.Prilutskii. High-precision fiber optical gyro with extended dynamical range // in Proc. Inertial Sensors and Systems - Symposium Gyro Technology 2014, Karlsruhe, Germany, 16-17 September 2014, p.9.1-9.14 . 
  13. A.V. Chernodarov, A.P. Patrikeev, Yu.N.Korkishko, V.A.Fedorov. An Object-Oriented Modular Technology for the Creation of Integrated Navigation Systems // in Proc. 21th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 26-28, 2014, pp.91-94.
  14. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, D.V.Obuhovich, S.V.Prilutskiy, S.M.Kostritskiy, I.V.Fedorov, A.I.Zuev, V.K.Varnakov. High-precision fiber optical gyroscope with extended dynamical range // in Proc. 21th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 26-28, 2014, pp.230-237.
  15. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskii, V.G.Ponomarev, I.V.Morev, S.M.Kostritskii, A.I.Zuev, V.K.Varnakov. Optimization of multi-function integrated optics chip fabricated by proton exchange in LiNbO3// in Proceedings of SPIE, Vol.9065, Fundamentals of Laser-Assisted Micro- and Nanotechnologies 2013, 90650E (November 28, 2013). 
  16. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, S.F.Skripnikov, M.I.Khmelevskaya, A.S.Buravlev, S.M.Kostritskiy, A.I.Zuev, V.K.Varnakov. Strapdown Inertial Navigation Systems Based on Fiber Optic Gyroscopes // in Proc. 20th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 27-29, 2013, pp.97-105.
  17. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskiy, V.G.Ponomarev, I.V.Morev, D.V.Obuhovich, I.V.Fedorov, N.I.Krobka. Investigation and Identification of Noise Sources of High Precision Fiber Optic Gyroscopes// in Proc. 20th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 27-29, 2013, pp.59-62.
  18. Yu.N. Korkishko, V.A.Fedorov, V.Е.Prilutskii, V.G.Ponomarev, I.V.Morev, S.M.Kostritskii. Interferometric closed-loop fiber-optic gyroscopes // in Proceedings of SPIE, Vol.8351, Third Asia Pacific Optical Sensors Conference, edited by John Canning, Gangding Peng, (SPIE, Bellingham, WA, 2012),  83513L, pp. 83513L-1–83513L-8 (2012).
  19. Yu.Korkishko, V.Fedorov, V.Prilutskii, V.Ponomarev, I.Morev, S. Kostritskii, A.Zuev, V.Varnakov. Closed loop fiber optical gyroscopes for commercial and space applications // in Proc. Inertial Sensors and Systems - Symposium Gyro Technology 2012, Karlsruhe, Germany, 18-19 September 2012, p.14.1-14.15.
  20. Yu.N.Korkishko, V.A.Fedorov, V.E.Prilutskii, V.G.Ponomarev, I.V.Morev, S.M.Kostritskii, A.I.Zuev, V.K.Varnakov. Interferometric closed loop fiber optical gyroscopes for commercial and space applications // in Proceedings of SPIE, Vol.8421, OFS2012 22nd International Conference on Optical Fiber Sensors, edited by Yanbiao Liao, Wei Jin, David D. Sampson, Ryozo Yamauchi, Youngjoo Chung, Kentaro Nakamura, Yunjiang Rao, (SPIE, Bellingham, WA, 2012),  842107, pp. 842107-1–842107-8 (2012).
  21. A.V.Chernodarov, A.P.Patrikeev, Yu.N.Korkishko, V.A.Fedorov, S.E. Perelyaev. Software Seminatural Development for FOG Inertial Satellite Navigation System SINS-500 // Gyroscopy and Navigation, 2010, Vol. 1, No. 4, pp. 330–340.
  22. A.V. Chernodarov, A.P. Patrikeev, Yu.N. Korkishko, V.A. Fedorov, S.E. Perelyaev. Half-Scale Development of the Mathematical Software Support for the SINS-500 Inertial Satellite Navigation System Built Around Fiber-Optic Gyros // in Proc. 17th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 31-June 02, 2010, pp.223-232.
  23. Yu.N. Korkishko, V.A. Fedorov, A.P. Patrikeev, A.V. Chernodarov, V.A. Matyushin, S.E. Perelyaev. An object-oriented technology for the integration of navigation sensors and its implementation in the SINS-1000 strapdown inertial navigation system built around fiber-optic gyros // in Proc. 16th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 25-27, 2009, pp.18-27.
  24. Yu.N. Korkishko, V.A. Fedorov, V.Е. Prilutskii, V.G. Ponomarev, P.K. Plotnikov, A.V. Mikheyev, S.G. Naumov. Study of SINS work in the conditions of high latitudes taking into account the errors of real sensors // in Proc. 16th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 25-27, 2009, pp.58-61.
  25. Yu.N. Korkishko, V.A. Fedorov, A.V. Chernodarov, A.P. Patrikeev, S.E. Perelyaev. Multilevel processing of fiber-optic-gyro signals in strapdown inertial navigation systems // in Proc. 15th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 26-28, 2008, pp.51-53.
  26. Yu.N. Korkishko, V.A. Fedorov, V.Е. Prilutskii, V.G. Ponomarev, P.K. Plotnikov, A.V.Mikheyev. Experimental research of FOG and accelerometers and the analysis o their parameters for SINS error prediction // in Proc. 15th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 26-28, 2008, pp.81-88.
  27. Yu.N. Korkishko, V.A. Fedorov, V.Е. Prilutskii, V.G. Ponomarev, V.G.Marchuk, I.V.Morev, S.M.Kostritskii, E.M. Paderin, L.P.Nesenyuk, A.S.Buravlev, L.G.Lisin. Navigation-Grade Interferometric Fiber Optical Gyroscope // in Proc. 14th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 28-30, 2007, pp.138-143.
  28. Y. N. Korkishko, V. A. Fedorov, V. Е. Prilutskii, V. G. Ponomarev, V. G. Marchuk, I. V. Morev, Е. М. Paderin, S. M. Kostritskii, V. N. Branets, V. S. Ryzhkov. Fiber optical gyroscope for space applications // in Optical Fiber Sensors, OSA Technical Digest (Optical Society of America, 2006), paper TuE91.
  29. Yu.N. Korkishko, V.A. Fedorov, V.Е. Prilutskii, V.G. Ponomarev, V.G.Marchuk, I.V.Morev, E.M. Paderin, S.M.Kostritskii, V.N.Branets, V.S.Ryzhkov. Space grade three-axis fiber optical gyroscope // in Proc. EOS Topical Meeting on Photonic Devices in Space, October 18-19, 2006, Paris, France. Vol.5, pp.32-35. 
  30. Yu.N. Korkishko,  V.A. Fedorov, V.Е. Prilutsky, V.G.Ponomarev, V.G.Marchuk, I.V.Morev, E.M.Paderin, S.M.Kostritskii, V.N.Branets, V.S.Ryzhkov. Three-axis Fiber Optical Gyroscope for Rocket&Space Applications // in Proc. 13th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 29-31, 2006, pp.237-242.
  31. P.K.Plotnikov, A.V.Mikheyev, Yu.N. Korkishko,  V.A. Fedorov, V.Е. Prilutsky, V.G.Ponomarev. Development of Strapdown Gyrocompass on base of Fiber Optic Gyroscopes // in Proc. Symposium Gyro Technology 2004, Stuttgart, September 21-22, 2004, p.15.0-15.12.
  32. V.Е. Prilutsky, V.G.Ponomarev, V.G.Marchuk, M.A.Fenyuk, Yu.N. Korkishko,  V.A. Fedorov, S.M.Kostritskii, E.M.Paderin. Interferometric Closed-Loop Fiber Optic Gyroscopes with Linear Output // in Proc. 11th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 24-26, 2004, pp.252-258.
  33. P.K.Plotnikov, A.V.Mikheyev, Yu.N. Korkishko,  V.A. Fedorov, V.Е. Prilutsky.  Fiber Optical Gyrocompass based on Strapdown Inertial System of Orientation and Navigation // in Proc. 11th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 24-26, 2004, pp.264-265.
  34. Yu.Korkishko, V.Fedorov, S.Kostritskii, A.Alkaev, E.Paderin, E.Maslennikov, V.Kritzak, D.Apraksin. Integrated optical chip for fiber optical gyroscope fabricated by high temperature proton exchange //  in Proc. 5th Pacific Rim Conference on Lasers and Electro-Optics, 2003. CLEO/Pacific Rim, December 15-19, 2003, Volume 1, p.284
  35. Yu.Korkishko,  V.Fedorov,  S.Kostritskii, E.Paderin, V. Prilutzkii, V.Ponamarev.  High-precision fiber optical gyroscope with linear digital output //  in Proc. 5th Pacific Rim Conference on Lasers and Electro-Optics, 2003. CLEO/Pacific Rim, December 15-19, 2003, Volume 2, p.566
  36. Yu.N.Korkishko, V.A.Fedorov, S.M.Kostritskii, A.N.Alkaev, E.I.Maslennikov, E.M.Paderin, D.V.Apraksin, F.Laurell. Proton exchanged LiNbO3 and LiTaO3 optical waveguides and integrated optic devices // Microelectronic Engineering, 2003, v.69, № 2-4, рр.228-236.
  37. Yu.N.Korkishko, V.A.Fedorov, S.M.Kostritskii, A.N.Alkaev, E.M. Paderin, E.I.Maslennikov, D.V.Apraksin. Multifunctional integrated optical chip for fiber optical gyroscope fabricated by high temperature proton exchange // in Proceedings of SPIE, Vol.4944, Integrated Optical Devices: Fabrication and Testing, edited by Giancarlo C. Righini, (SPIE, Bellingham, WA, 2003), pp. 262-267.
  38. V.Е. Prilutzkii, Yu.K. Pylaev, A.G. Gubanov, Yu.N. Korkishko,  V.A. Fedorov,  E.M.Paderin, Precision Fiber Optical Gyroscope with Linear Digital Output // in Proc. 9th Saint Petersburg International Conference on Integrated Navigation Systems, Saint Petersburg, May 27-29, 2002, pp.333-342. 
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