Bulgarian Academy of Sciences
Prof. Lachezar Georgiev Filipov

DEPUTY DIRECTOR
HEAD OF ASTROPHYSIC AND SYNERGETICS
TEL:+359 2 979-34-22; FAX:+359 2 9813347;
6 MOSKOVSKA ST., SOFIA 1000, BULGARIA
E-mail: LFILIPOV@space.bas.bg
SPACE RESEARCH INSTITUTE
1000 SOFIA 6 MOSKOVSKA STR. 
BULGARIA
CURRICULUM VITAE
BORN: 26 January 1953 Sofia, Bulgaria
DEGREES: Senior Research Fellow, Candidate of Physical and Mathematical
Sciences (equivalent to Doctor of Philosophy, Ph.D.).

EDUCATION:


EMPLOYMENT HISTORY (starting with the most recent)


PROFESIONAL TRAINING


PROFESIONAL VISITS


ACADEMIC ACTIVITY


MEMBERSHIPS:

  1. Bulgarian Union of Scientists - member
  2. International Astronomical Union - member
  3. International Astronautics Academy - academision membe
  4. COSPAR Committee on Astrophysics from Space - member
  5. Space Exploration Committee of the International Astronautical Federation - member
  6. International Scientific Committee on Spectra - X-Rays and GammaRays - member
  7. International Society for Optical Engineering (SPIE)-member
  8. European Astronomical Union - member





INTERNATIONAL ACTIVITY

STATEMENT OF RESEARCH INTERESTS AND FIELD OF RESEARCH

The main scientific interests are related to the theoretical astrophysics, nonlinear physics and mainly to relativistic astrophysics. Being student and graduate trainee of acad. Ya. B. Zeldovich I had worked in the field of the physics of compact objects. My works are mainly oriented toward high-energy astrophysics, X - and Gamma - ray astronomy. My PhD thesis on "Non-stationary Disc Accretion" initiated a series theoretical works for group analysis of solution of equation describing accretion discs. The results obtained showed that the discs are ideal synergetic system with nonlinearity, irreversibility and openness. That is why together with acad. Ya.Zeldovich we explored the idea that the majority of dynamic manifestation of objects where accretion fluxes are observed or assumed, should be systemized and interpreted based on the theory of the self organisation. The investigation applies two parallel methods - the synergetic via obtaining wide class of analytical solutions and criteria to demonstrate under what conditions these objects express a distinct tendency toward self - organisation. This is rather euristic approach. The second approach is related to the investigation of the dynamic instability of the accretion fluxes. The instability of hydrodynamic and magnetohydrodynamic Quette flows may give the answer to one of the crucial questions in the theory of the disc accretion - the problem of the natural turbolization. The self gravitational and non self - gravitational instability of primordial accretion, solar and planetary dust layers in quasi - Keplerian differential rotation around a central gravitational field was theoretically investigated. For this purpose linear and non-linear perturbation analyses were applied to the full system of hydro-dynamical equations of the Eulerian type. Bending wave modes and compression waves were studied separately both for radial and tangential propagation directions. For radial waves a similar instability criterion like that by Goldreich and Ward was obtained. However, for tangential waves a different criterion was found clearly showing that the onset of the instability sensitively depends on the direction of propagation. This work is now successfully extended to the case of viscous accretion discs. Recently I have been working on the non-linear physics of accretion discs. The expected effects in such systems are as follows (to mention a few):
1. Shock waves may occur as a result of inflowing or outflowing nonstationary flux.
2. Self-organisations may be obtained as result of feed-back between accreting substance emissivity flux from the inner edge of the disc on the equatorial plane.
3. Defined current structures may occur from Rossby type solutions.
4. The appearance of most various types of instabilities which modulate the observational manifestation of these phenomena.
In addition, many other effects which influence the dynamics of the accretion flux could also be investigated. The developing phenomena would be different depending on whether the accretion disc is in the active galaxy nucleus, around black hole, neutron star, white dwarf or a protostar.. Therefore I have the idea to unify these phenomena and look for the guiding parameters in these systems in order to establish good classification.
Another problem I am interested in is the turbulence mechanism resulting from the evolution of a non-linear system. A non-linear theory of the hydrodynamical instability does not exist yet. Therefore I decided to apply the idea to describe non-linear parabolic equation as a revealing method for initial generation of pulsations with finite amplitude in accretion discs. For more than 10 years I have worked on the application of the ideas of synergetics and non-linear physics in astrophysics. Recently I have concentrated my research efforts on the problem of self-organisation of open and non-equilibrium systems which in fact are widely found in astrophysics. In mathematical terms, if in an open and non-equilibrium system there is transfer and a source of energy exists (either of internal or external nature) then a self-consistent structure formation should be initiated and the opposite, if this self - consistency is broken up then the system evolves again until a self - consistency is established once again. The problem is which are the guiding parameters characterising this evolutionary phase sequence of "structure - transition - structure" for various astrophysical objects. It is clear that for the systems with a gravitating centre in the sense of a star, the phases will undergo the following evolutionary process "authowave process -quasi-stationary state - autho-wave process - ...". For the systems without such a gravitation centre the phases should be "chaos -structure - chaos - …" and of course, one intermediate phase may exit. Then the turbulence interacts with the autho-wave processes and the whole processes can assume a more complicated but a more physical meaning. Such is the case with accretion discs, proto-planetary systems and galactic discs. One of the problems which motivated these studies is the cause for the development of turbulent motions in such rotating systems. The idea is that
THIS PHENOMENON HAS BEEN CAUSED BY THE FACT THAT SUCH AN OPEN AND NON-EQUILIBRIUM SYSTEM WITH DIFFERENTIAL
ROTATION CAN NOT RESIST GRAVITY IN NO OTHER WAY BUT BY DEVELOPING SUCH CHAOTIC MOTION.
Therefore the question what methods of the self - organisation theory can be applied in support of such a hypotheses emerges. The unification of the synergetics and the theory of dynamics instability will provide for the development of non-linear astrophysics, the premises of which we may find in the non-linear theory of star pulsations, jet and galactic dynamics. The development of the non-linear astrophysics would give the possibility many of the observed phenomena to be identified and classified and on the other hand new phenomena and physical manifestation would revealed whose existence might not be found employing the classical linear approach. An important role in the rapid solution of
these problems wouldbe the combination of theoretical and numerical experiment on one hand, and the comparison of the results obtained with theplethora of data from the specialised space and ground-based observations, on the other. Many of these problems are reflected in publications, others are projects of future work. Another field of scientific interest is the investigation of hot rarefied plasma in astrophysics. This problem was recently identified with respect to the investigations and the diagnostics of such plasma type around collapsed objects and on Sun. The future plans concern an extensive study on the problem of astrophysical radiation hydrodynamics and the eventual combination with the problems of the non-linear astrophysics. In this regard there is collaboration with Prof. G. Nikolis from the Brussels Free University on the "Non-linear evolution of accretion discs".


LIST of PUBLICATIONS:

    1. L.G. Filipov, Vertical Structure of Accretion Discs when Gas Pressure Exceeds Radiation Pressure, Compt. Rend. Acad. Bulg. Sci., v. 35, N 3, 1982, p. 277 - 280.
    2. L. G. Filipov, Self - Similar Problems of the Time - Depended Disc Accretion and the Nature of Temporary X - Ray Sources, Adv. Space Res., v.3, N 10 - 12, 1984, p. 305 - 313.
    3. M. Kalinkov, K. Stravrev, I. Kaneva, L. G. Filipov, Optical and Radio Properties of X - Ray Emitting Clusters of Galaxies, Symp. X - Ray Astronomy - 84 June 26 - 30 1984, Bologna, Italy.
    4. M. Kalinkov, L. G. Filipov, X - Ray and Radioemission of Galactic Clusters, Rep. BAD - 85 - 611, I Nat. Conf. COSMOS - 85, Varna 14 -16, Nov. 1985.
    5. L. G. Filipov, V. Markov, Chr. Bliznakov, V. Genov, High Energy Astrophysics in Bulgaria - Problems and Prospectives, Rep. BAD - 85 - 607, I Nat. Conf. Cosmos - 85 Varna 14 -16 Nov., 1985.
    6. L. G. Filipov, Space - Based Astronomy, Rep. BAD - 85 - PD - 11, I Nat. Conf. COSMOS- 85, Varna 14 - 16 Nov., 1985.
    7. L. G. Filipov, An Equation Describing the Evolution of Nonstationary Geometrically Thin Accretion Disc, Theoretical and applied Mechanics, v.2, 1986.
    8. L. G. Filipov, An Analytic Solution of Non - Stationary Disc Accretion, Compt. Rend. Acad. Bulg. Sci., v.39, N 6, 1986, p. 5 - 8.
    9. L. G. Filipov, A Model of Transient X - Ray Sources, Compt. Rend. Acad. Bulg. Sci., v.39, N 7, 1986,p. 5 - 8.
    10. L. G. Filipov, Non - Stationary Disc Accretion, Adv. Space Res., v.6, N 4, 1986, p. 181 - 185.
    11. L. G. Filipov, V. Markov, Chr. Bliznakov, V. Genov, Device for Registration and Analysis of X - Ray Bursts, Adv. Space Res., v. ., N 4, 1986, p. 109 - 112.
    12. L. G. Filipov, V. Markov, Chr. Bliznakov, V. Genov, Adaptive Sweep in Probe Devices for Electron Plasma Temperature Measurements, IAF - 86 - 293, 37th Int. Astronaut. Congress, Austria, 4 - 11 Oct., 1986.
    13. L. G. Filipov, V. Markov, Chr. Bliznakov, V. Genov, A Device for Energy and Intensity Analysis of Data from X - Ray Telescope, Iaf - 86 - 314, 37th Int. Astronaut. Congress, Innsbruck, Austria, 4 - 11 Oct. 1986.
    14. L. G. Filipov, P. Petrov, Chr. Lukarsky, P. Grancharov, N. Dimitrov, K. Iliev, I. Arshinkova, V. Christov, Multifunctional Videosystem with Onboard Data Processing for Space Astronomy Experiments in Manned Flights, IAF - 87 - 459, 38th Int. Astronaut. Congress, Brighton, England, 1987.
    15. L. G. Filipov, N. I. Shakura, Yu. Ljubarskii, Self - Similar Processes in Accretion Discs, Adv. Space Rs., v. 8, N 2 -3, 1988, P. 163 - 169.
    16. L. G. Filipov, General Method Describing Self - Similar Regimes of Non - Stationary Disc Accretion, A possibility of Self - Organization, Adv. Space Res., v. 8, N 2 -3, 1988, p. 141 -150.
    17. M. Kalinkov, I. Kuneva, Z. Tsvenanov, L. G. Filipov, Color Variation of the AGNS with Redshift, Adv. Space Res., v. 8, N 2 -3, 1988, p. 275 - 278.
    18. L. G. Filipov, M. Dimitrova, Two - Dimensional Numerical Model of Gas Flux in Close Binaries, Adv. Space Res., v. 8, N 2 -3, 1988, p. 183 - 188.
    19. L. G. Filipov, E. Georgieva, Numerical Model of X - Ray Transient, Adv. Space Res., v. 8, N 2 -3, 1988, p. 493 -496.
    20. L. G. Filipov, P. Petrov, Chr. Lukarsky, P. Grancharov,V. Christov, I. Arshinkova, Precise Astrocamera for Manned Flights, IAF - 88 - 412, 39th Int. Astronaut. Congress, Bangalore, India, 1988.
    21. L. G. Filipov, V. Markov, Chr. Bliznakov, Calibration System for Prelaunch and Inflight Tests, Podsolnuch Experiment - Granat Mission, IAF - 88 -408, 39th Int. Astronaut. Congress, Bangalore, India,1988.
    22. L. G. Filipov, The Nature of the X - Ray Background in the Cosmos - “ The FON Experiment”, Compt. Rend. Acad. Bulg. Sci., v. 41, N 5, 1988, p. 75 - 77.
    23. L. G. Filipov, Ts. Sariisky, Perspektives for the Use of HgI2 Detectors for the Purposes of the FON Experiment, Compt. Rend. Acad. Bulg. Sci., v. 41, N 5, 1988, p. 79 - 81.
    24. L. G. Filipov, M. Kalinkov, I. Kaneva, Advantages and Restrictions of a Powerful Test for X - Ray Clusters of Galaxies, Compt. Rend. Acad. Bulg. Sci., v. 41, N 5, 1988, p. 35 -38.
    25. L. G. Filpov, P. Petrov, Chr. Lukarskt, P. Grancharov, K. Iliev, N. Dimitrov, I. Arshinkova, V. Christov, New Generation Optical Star Truckers for Scientific Payloads, IAF - 89 -467, 40th Int. Astronaut. Congress, Malaga, Spain, 1989.
    26. L. G. Filipov, P. Petrov, Chr. Lukarsky, V. Christov, P. Grancharov, N. Dimitrov, I. Arshinkova, Astronomical Complex “ ROZHEN” - A Multifunctional Video - system for the Second Bulgarian- Soviet Space Flight, IAF - 89 - 109, 40th Int. Astronaut. Congress, Malaga, Spain, 1988.
    27. L. G. Filipov, G. D. Chagelishvili, R. G. Chagishvili, L. G. .Lominadze, T. S. Christov, Turboliation of Shear Flows in Astrophysics, Proc. 23th ESLAB Symp., Bologna, Italy, 1989.
    28. L. G. Filipov, Non - Linear Phenomena in Accretion Discs - Possibility for Observational Verification, Proc. 23th ESLAB Symp., Bologna, 1989.
    29. L. G. Filipov, On Self - Similar Solutions of Non - Stationary Disc Accretion Problems, Space. Res. In Bulgaria, BAS, v., 1990, p. 21 -28.
    30. B. Bonev, L. G. Filipov, P. Genov, A. Christov, Soviet - Bulgarian Scientific Programme for Ballon Observations through Free Flight or Adjustment to Definite Site, Paper S. 14.2.10,28th COSPAR Congress, Hague, The Netherlands, 1990.
    31. L.G. Filipov, P. Petrov, B. Bonev, Chr. Lukarski, N. Dimitrov,K. Iliev, P. Grancharov, P. Genov, Perspective System for Astroorientation for Astrophysical Ballon Experiments, 28th COSPAR Congress, Hague, The Netherlands, 1990.
    32. L. G. Filipov, A Model of Interpretation of the Cataclysmic Variable SS Cyg., 28th COSPAR Congress, Hague, The Netherlands, 1990.
    33. E. Georgieva, L. G. Filipov, A Numerical Model of X - Ray Bursts, an Attempt to Interpret Some Aspects of the Rapid Burster, 28th COSPAR Congress, Hague, The Netherlands,1990.
    34. L. G. Filipov, Turbolization of Shear Flows in Accretion Discs, 28th COSPAR Congress, Hague, The Netherlands, 1990.
    35. G.D.Chagelishvili,R.G.Chanishvili,L.Filipov,T.Hristov,J.G.Lominadze,Amplification of Alven waves in free shear flows,Proc.ESA Workshop on Plasma Astroph.,ESA SP-311,pp.147-152,1991.
    36. M.M.Dimitrova,L.G.Filipov,Structure of Accretion flow in close binary system - A two-Dimentional numerical model.ESA Worcshop on Plasma Astroph.,ESA SP-311,pp255-260,1991.
    37. G.D.Chagelishvili,R.G.Chanishvili,L.Filipov,T.Hristov,J.G.Lominadze, Onset of turbulence in free shear flows.Adv.Space Res.,11,N8,pp(8)61-(8)65,1991.
    38. G.G.Babalyan,V.M.Loznikov,M.N.Pavlinsky,R.A.Sunyaev,L.Filipov,Observation of X-ray pulsar X-PER(44-0352+30) by the “GRANAT” Observarory,Pisma in Astron.J.(Russia),18,N4,pp303-314,1992.
    39. L.G.Filipov,Accretion disk-a typical system “reaction-diffusion”.Inter.Confer. on Nonlinear Dynamics,Chaotic and Complex systems,NDCCS’95,7-12nov.1995,Zakopane,Poland.
    40. L.G.Filipov,C.D.Dinev,Secular stability criterion for the Asteroid Belt,JENAM 97,2-5 july 1997,Thessuloniky,Greece.
    41. L.G.Filipov,Nonlinear behavior in Accretion Disks,JENAM 97,2-5 july 1997,Thessuloniky,Greece.
    42. The behavior of non-linear accretion disc structures under effects of MHD instabilities,Andreeva D., Dimitrova M.,COSPAR Colloquim of plasma physics, 5-10 february 2002, Abstract, Full text
    43. "Oeiiaa no?oeoo?e a ae?aoeiiieoa oa?aiey a oynia aaieia caacaia nenoaia e ii?a?aaueoa ae oaeoi?e", I. Aeieo?iaa, E. Oeeeiia, A. Aia?aaaa, ?aeeaeia iao?ia naney "110 aiaeie aucaooiieaaaia a Aueaa?ey", 25-26 ai?ee 2002 a., Aieia Ieo?iiieey
    44. "Aucieeaaia ia O??eia no?oeoo?e a oea?iaeiaie?ia nenoaia - ae?aoeiiai aene", A. Aia?aaaa, E. Oeeeiia, I. Aeieo?iaa, ?aeeaeia iao?ia naney "110 aiaeie aucaooiieaaaia a Aueaa?ey", 25-26 ai?ee 2002 a., Aieia Ieo?iiieey
    45. "Pattern formation and angular momentun transport in accretion flows", Dimitrova, M.M., Filipov, L.G., Andreeva, D.V., 3-th Serbian-Bulgarian Astronomical Meeting, 13-15 May, Giuletchica, Bulgaria, Full text
    46. "Accretion flow dynamic - pattern formation and angular momentum fransfer", Dimitrova, M.M., Filipov, L.G., Andreeva, D.V., "30 years Bulgaria in space", 3-4 Dec 2002, Sofia, Bulgaria,Full text
    47. Aia?aaaa A. A., Oeeeiia E. A., Aeieo?iaa I. I., Aeeyieaoi ia ii?aaaeai aea iaonoie?eainoe i?e no?oeoo?iia?acoaaiaoi a ae?aoeiiai aene, "30 aiaeie Aueaa?ey einie?anea no?aia", 3-4 Aaeaia?e 2002a., a?.Nioey
    48. "Turing Formations in Accretion Disc - as a Reaction-Diffusion Syatem", 2002, Andreeva D., Filipov L., Dimitrova M., Publ. Astron. Obs. Belograde, 73, 67 Full text
    49. "Structure formation and bifurcation points analysis in the accretion discs", Andreeva D., Filipov L., 2003, WDS'03,Part III, MATFYZPRESS Full text
    50. "Some Features of ...Disc and Advection-Dominated Accretion Disc. Self-Similar Sollutions and Their Comparison-I", Yankova Kr., Filipov L., Andreeva, D., Aerospace Research in Bulgaria, 2003, 17, 23 Full text
    51. "The influence of specific type of instability over structure formations in accretion discs", Andreeva D., Filipov L., Dimitrova M., Aerospace Research in Bulgaria, 2004, 18, 24 Full text
    52. "Some Features of ...Disc and Advection-Dominated Accretion Disc. Self-Similar Sollutions and Their Comparison-II", Yankova Kr., Filipov L., Andreeva, D., Aerospace Research in Bulgaria, 2004, 18, 142Full text
    53. Iankova Kr. D., Filipov L. G.,”MODEL OF ACCRETION FLUX IN THE PRESENCE OF MAGNETIC FIELD”, Þáèëåèíà íàó÷íà ñåñèÿ 2002 “30 ãîäèíè Áúëãàðèÿ êîñìè÷åñêà ñòðàíà”, BAS, SRI, Aerospace Research in Bulgaria, 18.86-89.2004.sofia http://adsabs.harvard.edu/abs/2004ARBl...18...86I .
    54. Filipov L., Micro-satellite platforms and GMES program, International conference- Cooperation on Applied Earth Observation/GMES, 27-29 September, Berlin, Germany, 2005.
    55. Filipov L., Micro satellites Platforms and Unmanned Aerial Vehicles the Strategy of   Space Research Institute for GMES, International conference-Integration of the New EU  Member Countries into the GMES Programme, 12-14 December 2005,Warsaw,Poland
    56. Getsov P., Filipov L., Roumenina E., Pavlova A., Nikolova I., Andreeva D., Gotchev D., Tomov N., Petrov O., Dimitrova M., Zaharinova M., Proceedings on 2nd International Conference RAST-2005, 159-161, 2005.
    57. ßíêîâà Êð. Ä., Ôèëèïîâ Ë. Ã., “Ïðîÿâè íà âçàèìîäåéñòâèåòî íà òå÷åíèåòî ñ ìàãíèòíîòî ïîëå â è èçâúí äèñêà – îñîáåííîñòè íà ìîäåëà”, Äîëíà Ìåòðîïîëèÿ, Þáèëåèíà íàó÷íà ñåñèÿ 2004”90 ãîäèíè aâèàöèîííî îáðàçîâàíèå â Áúëãàðèÿ”, collection of scientific reports 2005: ”120 years of Unity”, 93-98, 2005,(Bulgarian).
    58. Andreeva D., Dimitrova M., Filipov L., Yankova Kr., , Proceedings of  iAstro MC Meeting & Workshop, Sofia, Bulgaria, Heron Press, ISBN-10 954-580-190-5, 400-403, 2005.
    59. Andreeva D., Filipov L., Proceedings of BAM 2004, Rozhen, Bulgaria, p. 224-229, 2005.
    60. Iankova Kr. D., Filipov L. G.,”Influence of the magnetic field of the compact object on the accretion disk – results’’ BAM 2004, Aerospace Research in Bulgaria, No. 20, p. 167 - 170 (2005).     http://www.space.bas.bg/astro/Rogen2004/StPh-2.pdf
    61. Boneva D., Filipov L., 16-th WDS’07, P. III., MATFYZPRESS, Prague, 36-42, 2007.
    62. Boneva D., Filipov L., Effect of the Rossby number variations on dynamical formations in accretion disc flow, Proceedings of SENS’07, 84-87, Varna, Bulgaria, 2007.
    63. R. Nedkov, E. Roumenina, L. Filipov, Maria Dimitrova, M. Zaharinova, V. Naydenova, G. Jelev, D. Boneva, P. Hristov, Web-based monitoring of the air pollution in Stara Zagora area, based on the satellite data, Proceedings of SENS’07, Varna, Bulgaria, p. 264-273, 2007. /in Bulgarian/
    64. Boneva D.V., Filipov L.G., Disturbances in the disc flow of selected LMXBs* and the variations in their light curves, Proceedings of IV International Conference SENS 2008, 4-7 June, in press
    65. Iankova Kr.D., Filipov L., “MODIFICATION EQUATIONS OF DISK for MAGNETIC corona”, 27 – 29 þíè 2007 ã., ÒÐÅÒÀ ÍÀÓ×ÍÀ ÊÎÍÔÅÐÅÍÖÈß Ñ ÌÅÆÄÓÍÀÐÎÄÍÎ Ó×ÀÑÒÈÅ: „ÊÎÑÌÎÑ, ÅÊÎËÎÃÈß, ÍÀÍÎÒÅÕÍÎËÎÃÈÈ, ÑÈÃÓÐÍÎÑÒ”, TSCIP-SENS 2007, Âàðíà, SRI-BAS, ISSN 1313-3888, pp 88-91, 2008.      http://www.space.bas.bg/SENS-2007/1-16.pdf