Îáðèäêî Âëàäèìèð Íóõèìîâè÷
Ïèøèòå ïî àäðåñó: obridko _at _ izmiran _ dot_ ru
Some publications
Sunspots
M.A.Livshits, V.N.Obridko, S.B.Pikel'ner
Radio emission and atmospheric structure above sunspots
AZh (Soviet Astronomy), 1967, v. 10, no. 6, pp. 909-914
V.N.Obridko
On the two-component structure of the sunspot magnetic field.
Bulletin of the Astronomical Institutes of Czechoslovakia, 1968, v.19, No. 4, 183 - 185.
V.N.Obridko
On the two-component sunspot model.
Bulletin of the Astronomical Institutes of Czechoslovakia, 1968, v.19, No. 4, 186 - 189.
V.N.Obridko, E.I.Mogilevsky, L.B.Demkina, B.A.Ioshpa
On the structure of the magnetic field of sunspots.
Structure and development of solar active regions, Symposium No.35, Dordrecht, 1968, 216 - 229.
V.M.Dashevskii, V.N.Obridko
Temperature distribution in an irregularity in radiative equilibrium
AZh (Soviet Astronomy), 1973, v. 16, no. 4., pp. 651-654
L.B.Demkina, V.N.Obridko
Polarization of the radiation of magnetic stars
AZh (Soviet Astronomy), 1973, v. 16, no. 5, pp. 853-855
V.N.Obridko
Origin of bright umbral dots
AZh (Soviet Astronomy), 1974, v. 51, pp. 1272-1276
V.N.Obridko
Structure of the atmosphere above sunspots
AZh (Soviet Astronomy), 1979, v. 56, pp. 67-73
V.N.Obridko, J.Staude
A two-component working model for the atmosphere of a large sunspot umbra.
Astron.Astrophys., 1988, v.189, 232 - 242.
B. A. Ioshpa, E. I. Mogilevskii, V. N. Obridko, and E. A. Rudenchik
Magnetic Field Structure in Sunspots
Multi-Wavelength Investigations of Solar Activity, A.V. Stepanov, E.E. Benevolenskaya & A.G. Kosovichev, eds.
Proceedings IAU Symposium No. 223, 2004, p.259-260
Local fields
M. KOPECKY and V. OBRIDKO
ON THE ENERGY RELEASE BY MAGNETIC FIELD DISSIPATION IN THE SOLAR ATMOSPHERE
Solar Physics, 1968, 5, 354-358
L. KRIVSKY and V. OBRIDKO
LARGE-SCALE MUTUAL RELATIONS OF SPOT GROUPS IN PROTON COMPLEX
Solar Physics, 1969, 6 418-427
V. BUMBA and V. N. OBRIDKO
'BARTELS' ACTIVE LONGITUDES', SECTOR BOUNDARIES AND FLARE ACTIVITY
Solar Physics 6 (1969) 104-110
B.A.Ioshpa, E.I.Mogilevskii, V.N.Obridko
Evolution of a filament/CH/magnetic field complex
New Perspectives on Solar Prominences, IAU Colloqioum 167, David Webb, David Rust, and Brigitte Schmieder (eds.)
ASP Conference Series, 1998, v. 150, pp. 393-396
Ioshpa B.A., Obridko V.N.
Velocity and Magnetic Field Structure in the Vicinity of H-alpha Filaments
E.I.Mogilevskii, V.N.Obridko, ànd N.S.Shilova
On a probable model of solar flares based on "avalanche'' of self-organized criticality with energy and matter transport by MHD solitons.
Astron. Astrophys. Transact. 2005, V.24, n1, pp.25-33
B. A. Ioshpa
, V.N.Obridko, and V. E. ChertoprudSmall-Scale Stochastic Structure of the Solar Magnetic Field
Astronomy Letters, 2007, Vol. 33, No. 12, pp. 844–847.
Translated from
Ïèñüìà â ÀÆ 2007, ò. 33, ¹ 12, ñòð. 941–945.
Á. À. Èîøïà , Â. Í. Îáðèäêî, Â. Å. ×åðòîïðóä
ÌÅËÊÎÌÀÑØÒÀÁÍÎÅ ÔÎÍÎÂÎÅ ÌÀÃÍÈÒÍÎÅ ÏÎËÅ ÑÎËÍÖÀ  23-ì ÑÎËÍÅ×ÍÎÌ ÖÈÊËÅ
ÏÈÑÜÌÀ  ÀÑÒÐÎÍÎÌÈ×ÅÑÊÈÉ ÆÓÐÍÀË, 2009, òîì 35,¹6, ñ. 472–480
Áàäàëÿí O.G., Îáðèäêî V.N.
North-South asymmetry of the sunspot indices and its quasi-biennial oscillations
New astronomy, 16(2011), 357-365.
Oscillations global and local, waves
B. A. IOSHPA, V.N. OBRIDKO, and B. D. SHELTING
SHORT-PERIODIC OSCILLATIONS OF THE MAGNETIC FIELD OF THE SUN AS A STAR
Solar Physics 29 (1973) 385-392.
V. N. OBRIDKO and B. D. SHELTING
QUASI-BIENNIAL OSCILLATIONS OF THE GLOBAL SOLAR MAGNETIC FIELD
Astronomy Reports, 2001,Vol.45, No. 12, pp. 1012-1047, engl
Ivanov E.V., V.N. Obridko, and B.D. Shelting,
Quasi-Biennial Oscillations of the Solar Magnetic Fields, Proc. 10th European Solar Physics Meeting", Solar Variability: From Core to Outer Frontiers", Prague, Czech. Republic, 9-14 September,
2002 (ESA SP-506, December 2002), pp. 847-850.
V.N. Obridko , B.D. Shelting
Occurrence of the 1.3-year periodicity in the large-scale solar magnetic field for 8 solar cycles
Advances in Space Research, www.sciencedirect.com
O.G. Badalyan · V.N. Obridko · J. Sykora
Quasi-Biennial Oscillations in the North – South Asymmetry of Solar Activity
Solar Phys (2008) 247: 379–397
Solar Magnetograph (Instrument and Observations)
B. IOSHPA and V. OBRIDKO
FOURIER PARAMETERS AND MOMENTS OF POLARIZATION PROFILES OF MAGNETICALLY ACTIVE LINES. FOURIER VECTOR MAGNETOGRAPH
Solar Physics 1996, 164, 373-380
I.E. KOZHEVATOV, V.N. OBRIDKO, E.P. RUDENCHIK, N.P. CHERAGIN, AND E.N.KULIKOVA
A SOLAR SPECTROMAGNETOGRAPH
I.E.Kozhevatov, N.P.Cheragin, B.A.Ioshpa, E.N.Kulikova, V.N.Obridko, E.A.Rudenchik
New IZMIRAN solar spectromagnetograph
Proc. 10th European Solar Physics Meeting "Solar Variabiluty from Core to Outer Frontiers", Czech Republic, 9-14 September 2002
(ESA SP-506, December 2002), pp. 951-954
I.E.Kozhevatov, N.P.Cheragin, E.N.Kulikova, B.A.Ioshpa, V.N.Obridko, E.A.Rudenchik, V.YU.Nepomniashchy
IZMIRAN Solar Spectromagnetograph
Large Scale Magnetic Fields on the Sun
Ivanov E.V., V.N. Obridko, and I.V. Ananyev
Variations of solar irradiance, 10.7 cm radio flux, He I 10830A equivalent width, and global magnetic field intensity and their relation to large-scale solar magnetic field structure.
Solar. Phys., 1998, V.177, pp. 217-228.
Ivanov E.V., V.N. Obridko, E.V. Nepomnyashchaya, V.N. Kutilina
Relevance of CME to the Large-Scale Structure of Solar Magnetic Fields,
Solar. Phys., 1999, 184, N 2, pp. 369-384.
Ivanov E.V., and V.N. Obridko
Zonal structure and meridional drift of large-scale solar magnetic fields,
Solar Phys., 2002, 206, Issue 1, pp. 1-19.
E.V Ivanov, V.N.Obridko,
The Cyclic Variations of the CME Velocity
Solar Phys., 2001, 198, 179-196, engl
E.V. IVANOV , V.N. OBRIDKO, and I.V. ANANYEV,
SECTOR STRUCTURE, ROTATION AND CYCLIC EVOLUTION OF LARGE-SCALE SOLAR MAGNETIC FIELDS
Solar Phys., 2001, 199, 405, engl
V.N. Obridko , Shelting B.D.
Rotation characteristics of large-scale solar magnetic field
Solar Phys. 2001, V.201, P.1, engl
IVANOV E.V., AND V.N. OBRIDKO
The Role of Solar Magnetic Field Systems in Modulating the Solar Irradiance
Advances in Space Research, 2002, 29, No. 12, pp. 1951-1956.
V. N. OBRIDKO and B. D. SHELTING
MERIDIONAL DRIFT OF LARGE-SCALE SOLAR MAGNETIC FIELDS
Astronomy Reports, 2003,Vol.47, No. 4, pp. 333-342, engl
Ivanov E.V., V.N. Obridko, and B.D. Shelting,
Meridional Drifts of Large-Scale Solar Magnetic Fields and Meridional Circulation, Proc. 10th European Solar Physics Meeting", Solar Variability: From Core to Outer Frontiers", Prague, Czech. Republic, 9-14 September,
2002 (ESA SP-506, December 2002), pp. 851-854.
Â. Í. Îáðèäêî, Á. Ä. Øåëüòèíã
ÂÐÅÌÅÍÍÛÅ ÂÀÐÈÀÖÈÈ ÏÎËÎÆÅÍÈß ÃÅËÈÎÑÔÅÐÍÎÃÎ ÝÊÂÀÒÎÐÀ
ÑÒÐÎÍÎÌÈ×ÅÑÊÈÉÆÓÐÍÀË, 2008, òîì 85,¹8, ñ. 750–754
Solar cycle
V. N. OBRIDKO and B. D. SHELTING
CYCLIC VARIATION OF THE GLOBAL MAGNETIC FIELD INDICES
Solar Physics 137: 167-177, 1992.
V.N.Obridko, G.Gaziev
Some comments to the problem of extended cycles in large scale magnetiv fields.
V. N. OBRIDKO and B. D. SHELTING
GLOBAL SOLAR MAGNETOLOGY AND SOLAR CYCLE REFERENCE POINTS
Pulkovo Conference, 7-11 July 2003, pp. 339-344, engl, rus
NB: Some comparisons between Stanford and Kitt Peak data set
E.V. Ivanov, V.N. Obridko, and B.D.Shelting
THE ROLE OF MERIDIONAL CIRCULATION IN GENERATING THE 22-YEAR SOLAR CYCLE
V. N. Obridko, D. D. Sokoloff, K. M. Kuzanyan, B. D. Shelting, and V. G. Zakharov
Solar cycle according to mean magnetic Field data
Mon. Not. R. Astron. Soc. 365, 827–832 (2006)
I. M. Livshits and V. N. Obridko
Variations of the Dipole Magnetic Moment of the Sun during the Solar Activity Cycle
Astronomy Reports, 2006, Vol. 50, No. 11, pp. 926–935.
Translated from
.Ì.Ëèâøèö, Â.Í.Îáðèäêî, 2006, Àñòðîíîìè÷åñêèé æóðíàë ò. 83, ¹ 11, ñòð. 1031–1041.
V. N. Obridko and B. D. Shel’ting
A Generalized Polarity Rule for Solar Magnetic Fields
Astronomy Reports, 2007, Vol. 51, No. 4, pp. 339–342.
Translated from
ÀÆ 2007, ò. 84, ¹ 4, ñòð. 380–384.
D. Sokoloff · H. Zhang · K.M. Kuzanyan · V.N. Obridko · D.N. Tomin · V.N. Tutubalin
Current Helicity and Twist as Two Indicators of the Mirror Asymmetry of Solar Magnetic Fields
Â.Í.Îáðèäêî
ÖÈÊËÛ ÑÎËÍÅ×ÍÎÉ ÀÊÒÈÂÍÎÑÒÈ È ÎÑÎÁÅÍÍÎÑÒÈ 23-ÃÎ ÖÈÊËÀ
Çåìëÿ è Âñåëåííàÿ 2011, ¹ 1, ñòð. 3-17
Coronal holes
V. N. OBRIDKO andB. D. SHELTING
CORONAL HOLES AS INDICATORS OF LARGE-SCALE AGNETIC FIELDS IN THE CORONA
Solar Physics 124: 73-80, 1989.
V.N.Obridko, B.D.Shelting
Coronal holes and photospheric magnetic fields
Astron. Zh., 1990, v. 67, pp. 890-893
V.N.Obridko,B.D.Shelting
Coronal holes as indicator of deep-seated global magnetic fields.
E. I. MOGILEVSKY, V. N. OBRIDKO and N. S. SHILOVA
LARGE-SCALE MAGNETIC FIELD STRUCTURES AND CORONAL HOLES ON THE SUN
Solar Physics 176: 107–121, 1997.
V.N.Obridko, B.D.Shelting
Structure and Cyclic variations of Open Magnetic Fields in the Sun
V. N. OBRIDKO and B. D. SHELTING
STRUCTURE OF THE HELIOSPHERIC CURRENT SHEET DERIVED FOR THE INTERVAL 1915 –1916
Solar Physics 184: 187–200, 1999.
V. N. OBRIDKO and B. D. SHELTING
STRUCTURE AND CYCLIC VARIATIONS OF OPEN MAGNETIC FIELDS IN THE SUN
Solar Physics 187: 185–205, 1999.
Vladmir Obridko, Valery Fomichev, A. F. Kharshiladze, Igor Zhitnik, Vladmir Slemzin, S.T. Wu, J. Ding, and David Hathaway
Analyses and Modeling of Coronal Holes Observed by CORONAS-I.I. Morphology and Magnetic Field Configuration
Astronomical and Astrophysical Transactions, V.18, N.6, 819-828, 2000.
M. Chertok ., Hudson H.S., Mogilevsky E.I., Obridko V.N., Shilova N.S.
Solar disappearing filament inside a coronal hole and associated large-scale activity
2002 , Astroph.J., V.567, 1225-1233, engl
V.N.OBRIDKO, B.D.Shelting, AND A.B.ASGAROV
CONTRAST OF CORONAL HOLES AND PARAMETERS OF QUIET SOLAR WIND
Solar Phys, submitted 01/12/2008
V. N. Obridko, B. D. Shelting, I. M. Livshits, and A. B. AskerovRelationship between the Contrast of Coronal Holes and Parameters of the Solar Wind Streams
Astronomy Reports, 2009, Vol. 53, No. 11, pp. 1050–1058.
Translated from
Àñòðîí. æ. 2009, ò. 86, ¹ 11, ñòð 1125–1132.
V. N. Obridko, B. D. Shelting, and I. M. Livshits
Open Magnetic Fields on the Sun and Solar Wind Parameters at the Earth’s Orbit
Astronomy Reports, 2011, Vol. 55, No. 3, pp. 284–291.
Translated from
2011, Vol. 88, No. 3, pp. 313–320.
Solar Corona, Magnetic Fields, Heating and Cyclic Variations
E. MOGILEVSKY, B. IOSHPA, and V. OBRIDKO
ON THE POLARIZATION OF THE SOLAR CORONAL EMISSION LINES
Solar Physics 33 (1973) 169-175.
O.G.Badalyan, V.N.Obridko, J.Sykora
Brightness of the coronal green line and prediction for activity cycles 23 and 24
Solar Phys., 2001, 199,421., engl
O. G. BADALYAN, V. N. OBRIDKO, J. SYKORA
DIRECTION of the CORONAL GREEN LINE POLARIZATION as DERIVED from the ECLIPSE MEASUREMENTS
Contrib. Astron. Obs. Scalnate Pleso, 2002, 32, 49-61
O. G. BADALYAN, V. N. OBRIDKO, J. SYKORA
POLARIZATION in the 530.3 nm EMISSION LINE and CORONAL MAGNETIC FIELD STRUCTURE
Contrib. Astron. Obs. Scalnate Pleso, 2002, 32, 175-189
O.G. Badalyan, V.N. Obridko, J. Rybák and J. Sýkora
N-S asymmetry of solar activity and quasi-biennial oscillations.
O.G. Badalyan, V.N. Obridko, J. Sykora
Space-time distribution of the coronal green line brightness and solar magnetic fields.
Astron. Astrophys. Transact. 2004, V.23, n6, pp.555-566
J. Sýkora, O.G. Badalyan, V.N. Obridko
Connections between the white-light eclipse corona and magnetic fields over the solar cycle
Solar Physics, 2003, v. 212, N2, p. 301-318, engl
O. G. BADALYAN and V. N. OBRIDKO
SOLAR MAGNETIC FIELDS and the INTENSITY of the GREEN CORONAL LINE
Astronomy Reports, Vol. 48, ¹8, 2004, pp. 678-687,engl
translated from
Astronomicheski Zhurnal, Vol. 81, ¹ 8, 2004, pp. 746-756, rus)
Î. Ã. Áàäàëÿí, Â.Í.Îáðèäêî, Þ. Ñèêîðà
ÖÈÊËÈ×ÅÑÊÈÅ ÈÇÌÅÍÅÍÈß ÏÐÎÑÒÐÀÍÑÒÂÅÍÍÎÃÎ ÐÀÑÏÐÅÄÅËÅÍÈß ßÐÊÎÑÒÈ ÇÅËÅÍÎÉ ÊÎÐÎÍÀËÜÍÎÉ ËÈÍÈÈ
ÀÑÒÐÎÍÎÌÈ×ÅÑÊÈÉÆÓÐÍÀË, 2005, òîì 82,¹6, ñ. 1–9
O.G. Badalyan, V.N. Obridko, J. Sykora
Temporal variations of the solar corona rotation
11th European Solar Physics Meeting, The Dynamic Sun: Challenges for Theory and Observations, 11 – 16 September 2005 2005, Leuven, Belgium, SP-600 – December 2005, ESA Publication Division, ESTEC, P.O. Dox 299, 2200 AG Noordwijk, The Netherlands, Ed. D.Danesy, S.Poeds, A. De Groof, J. Andres.
Î. Ã. Áàäàëÿí, Â.Í.Îáðèäêî, Þ. Ñèêîðà
ÖÈÊËÈ×ÅÑÊÈÅ ÂÀÐÈÀÖÈÈ ÄÈÔÔÅÐÅÍÖÈÀËÜÍÎÃÎ ÂÐÀÙÅÍÈß ÑÎËÍÅ×ÍÎÉ ÊÎÐÎÍÛ
ÀÑÒÐÎÍÎÌÈ×ÅÑÊÈÉÆÓÐÍÀË, 2006, òîì 83,¹4, ñ. 352–367
O.G. BADALYAN and V.N. OBRIDKO
TWO REGULARITIES IN THE CORONAL GREEN-LINE BRIGHTNESS – MAGNETIC FIELD COUPLING AND THE HEATING OF THE CORONA
Solar Physics (2006) 238: 271–292
O. G. Badalyan
* and V. N. ObridkoTo the Problem of Solar Coronal Heating
Astronomy Letters, 2007, Vol. 33, No. 3, pp. 182–191.
Translated from
Ïèñüìà â ÀÆ 2007, ò. 33, ¹ 3, ñòð. 210–220.
Î.Ã.Áàäàëÿí, Ã.Â.Êóêëèí, Â.Í.Îáðèäêî
ÖÈÊËÈ×ÅÑÊÈÅ ÂÀÐÈÀÖÈÈ ÏÀÐÀÌÅÒÐΠÌÎÄÅËÜÍÛÕ ÐÀÑÏÐÅÄÅËÅÍÈÉ ßÐÊÎÑÒÈ ÇÅËÅÍÎÉ ÊÎÐÎÍÛ
Î.Ã. Áàäàëÿí, Ã.Â.Êóêëèí, Â.Í.Îáðèäêî, Þ.Ñèêîðà
ÐÅÆÈÌÛ ÑÂÅ×ÅÍÈß ÊÎÐÎÍÛ Â ËÈÍÈÈ X 530.3 íì  ÖÈÊËÀÕ 18-22
Solar magnetic fields and the Interpalanetary Matter Parameters
V. N. OBRIDKO, A. F. KHARSHILADZE, and B. D. SHELTING
ON CALCULATING THE SOLAR WIND PARAMETERS FROM THE SOLAR MAGNETIC FIELD DATA
Astronomical and Astrophysical Transactions, 1996, Vol. 11, pp. 65-79
V.N.Obridko, A.F.Kharshiladze, and B.D.Shelting
Calculating Solar Wind Parameters from Solar Magnetic Field Data.
Solar Drivers of Interplanetary and Terrestrial Disturbances,
Â. Í. Îáðèäêî, Á. Ä. Øåëüòèíã, À. Ô. Õàðøèëàäçå
ÐÀÑ×ÅÒÛ ÌÀÃÍÈÒÍÎÃÎ ÏÎËß Â ÎÊÎËÎÇÅÌÍÎÌ ÏÐÎÑÒÐÀÍÑÒÂÅ ÏÎ ÄÀÍÍÛÌ Î ÑÎËÍÅ×ÍÎÌ ÌÀÃÍÈÒÍÎÌ ÏÎËÅ
Ãåîìàãíåòèçì è Àýðîíîìèÿ, â ïå÷àòè, rus
Sýkora, J., Badalyan, O. G., and Obridko, V. N.
Coronal holes, recorded from 1943 – A source of solar-induced terrestrial responses?
Obridko, V. N., Golyshev, S.A, Levitin, A.E.
Secular and Cycle Variations of the IMF Bz Component and Some Associated Geophysical Effects
SOLSPA 2001 Euroconference: Solar Cycle and Space Weather, 24-29 September 2001, Vico Equense (Italy).
Proceedings published in ESA SP Series (SP-477) pp. 404-407 2002
V. N. Obridko, S. A. Golyshev, and A. E. Levitin
Relation between the Structure of the Large-Scale Solar Magnetic Field in the Activity Cycles and IMF Governing Geomagnetic Activity
Geomagnetism and Aeronomy, Vol. 44, No. 4, 2004, pp. 410–412.
Translated from
Geomagnetizm i Aeronomiya, Vol. 44, No. 4, 2004, pp. 449–452.
V. N. Obridko, B. D. Shelting, and A. F. Kharshiladze
Multiparameter Computations of Solar Wind Characteristics in the Near-Earth Space from the Data on the Solar Magnetic Field
Solar System Research, Vol. 38, No. 3, 2004, pp. 228–237.
Translated from
Astronomicheskii Vestnik, Vol. 38, No. 3, 2004, pp. 261–272.
A. V. Belov, V. N. Obridko, and B. D. Shelting
Correlation between the Near-Earth Solar Wind Parameters and the Source Surface Magnetic Field
Geomagnetism and Aeronomy, 2006, Vol. 46, No. 4, pp. 430–437.
Translated from
Ãåîìàãíåòèçì è àýðîíîìèÿ 2006, ò. 46, ¹ 4. ñòð. 465-464
A. B. Askerov and V. N. Obridko
Magnetic Cloud in the Solar Wind: A Comparison with the Classical Model
Geomagnetism and Aeronomy, 2007, Vol. 47, No. 3, pp. 285–290.
Translated from
Ãåîìàãíåòèçì è àýðîíîìèÿ, 2007, ò. 47, ¹ 3, ñòð. 303–308.
V.N.Obridko, A.B.Asgarov, B.D.Shelting, E.S.Babayev
Correction of Observations When Calculating Heliospheric Magnetic Fields from Solar Magnetograph Data
Sun and Geosphere, 2010; 5(1): 34 - 37
Some comments on the Connection between the Variation of the Large-Scale Solar Magnetic Field and Terrestrial Climate
V. N. OBRIDKO, V. N. ORAEVSKY, I. V. DMITRIEVA, and E. P. ZABOROVA
SOME ASPECTS OF HELIOMETEOROLOGIC COUPLING
Astronomical and Astrophysical Transactions, 1995, Vol. 9, pp. 149-157
M.G.Deminov, E.V.Nepomnyashchaya, V.N.Obridko, B.D.Shelting, V.N. Shubin, and V.A. Chizhenkov.
Is Our Knowledge of Solar Indices Enough to Explain Satellite Drag?
Solar Drivers of Interplanetary and Terrestrial Disturbances,
I.V.Dmitrieva, V.N.Obridko, and E.P.Zaborova.
What Are the Solar Drivers Responsible for Helio-Meteorological Effects.
Solar Drivers of Interplanetary and Terrestrial Disturbances,
P.V. Kishcha, I.V. Dmitrieva, V.N. Obridko
Long-term variations of the solar-geomagnetic correlation, total solar irradiance, and northern hemispheric temperature (1868-1997)
Journal of Atmospheric and Solar-Terrestrial Physics 61 (1999) 799-808
V. I. MAKAROV, V.N. OBRIDKO and A.G. TLATOV
THE INCREASE IN THE MAGNETIC FLUX FROM THE POLAR REGIONS OF THE SUN OVER THE LAST 120 YEARS
Astronomy Reports, Vol.45, No. 9, 2001, pp. 746-750, engl
V.I. Makarov, Tlatov, A.G., Callebaut, D.K., Obridko, V.N., and Shelting, B.D.
Large scale solar magnetic field and sunspot cycles
Solar Physics, 2001, V.198, 409, engl
V.I.Makarov, A.G.Tlatov, D.K.CAllebaut, and V.N.Obridko Increase of the Magnetic Flux from Polar Zones of the Sun in the last 120 Years
Solar.Phys., 2002, 206, 383-399, engl
Connection between the Solar Activity and Biosphere
I. V. DMITRIEVA, 0. V. KHABAROVA, V. N. OBRIDKO, M. V. RAGULSKAJA, and A. E. REZNIKOV
EXPERIMENTAL CONFIRMATIONS OF BIOEFFECTIVE EFFECT OF MAGNETIC STORMS
Astronomical and AJtrophysical Transactions, 2000, Vol. 19, pp. 67-77
Elchin S. Babayev, Norma B. Crosby, Vladimir N. Obridko and Michael J. Rycroft
Potential effects of solar and geomagnetic variability on terrestrial biological systems
Solar Magnetic Fields and Cosmic Rays
A.V. Belov , Shelting B.D., Gushchina R.T., Obridko V.N., Kharshiladze A.F, Yanke V.G.
Global magnetic field of the Sun and long term variations of Galactic Cosmic Rays"
Journal of.Atmospheric and Solar-Terrestrial Physics, 2001, 63, 1923-1929, engl
A.V.Belov , B.D.Shelting , R.T.Gushchina , V.N.Obridko, V.G.Yanke
Long-term variations of Galactic cosmic rays and the relation to the solar magnetic field parameters"
2001, Proc. 27th ICRC, Hamburg, V.10, P.3911
À.Â.ÁÅËÎÂ, Ð.Ò.ÃÓÙÈÍÀ, Â.Í.ÎÁÐÈÄÊÎ, Á.Ä.ØÅËÜÒÈÍÃ, Â.Ã.ßÍÊÅ
ÑÂßÇÜ ÄÎËÃÎÂÐÅÌÅÍÍÎÉ ÌÎÄÓËßÖÈÈ ÊÎÑÌÈ×ÅÑÊÈÕ ËÓ×ÅÉ
Ñ ÕÀÐÀÊÒÅÐÈÑÒÈÊÀÌÈ ÃËÎÁÀËÜÍÎÃÎ
ÌÀÃÍÈÒÍÎÃÎ ÏÎËß ÑÎËÍÖÀ
Ãåîìàãíåòèçì è àýðîíîìèÿ, 2002, òîì 42, ¹6, 727-755 (rus.)
A.V.BELOV, R.T.GUSHCHINA, V.N.OBRIDKO, B.D.SHELTING, AND V.G.YANKE
CONNECTION OF THE LONG-TERM MODULATION OF COSMIC RAYS WITH THE PARAMETERS OF THE GLOBAL MAGNETIC FIELD OF THE SUN
Geomagnetism and Aeronomy, 2002, vol. 42, N 6, 693-700
A.V.BELOV, L.I.DORMAN, R.T.GUSHCHINA, V.N.OBRIDKO, B.D.SHELTING, and V.G.YANKE
PREDICTION OF EXPECTED GLOBAL CLIMATE CHANGE BY FORECASTING OF GALACTIC COSMIC RAY INTENSITY TIME VARIATION IN NEAR FUTURE BASED ON SOLAR MAGNETIC FIELD DATA
Adv. in Space Res., 2005 (in press)
À.Â.ÁÅËÎÂ, Ð.Ò.ÃÓÙÈÍÀ, Â.Í.ÎÁÐÈÄÊÎ, Á.Ä.ØÅËÜÒÈÍÃ, Â.Ã.ßÍÊÅ
ÏÐÎÃÍÎÇ È ÝÏÈÃÍÎÇ ÄÎËÃÎÏÅÐÈÎÄÍÛÕ ÂÀÐÈÀÖÈÉ ÊÎÑÌÈ×ÅÑÊÈÕ ËÓ×ÅÉ ÍÀ ÎÑÍÎÂÅ ÐÀÇËÈ×ÍÛÕ ÈÍÄÅÊÑΠÑÎËÍÅ×ÍÎÉ ÀÊÒÈÂÍÎÑÒÈ
Èçâ. ÐÀÍ, ñåð. ôèç. 2004-2005, â ïå÷àòè.
À.Â. ÁÅËÎÂ, Ð.Ò. ÃÓÙÈÍÀ, Â.Í. ÎÁÐÈÄÊÎ, Á.Ä. ØÅËÜÒÈÍÃ, Â.Ã. ßÍÊÅ
ÏÐÎÃÍÎÇ ÂÀÐÈÀÖÈÉ ÃÀËÀÊÒÈ×ÅÑÊÈÕ ÊÎÑÌÈ×ÅÑÊÈÕ ËÓ×ÅÉ Â ÑËÅÄÓÞÙÅÌ ÑÎËÍÅ×ÍÎÌ ÖÈÊËÅ ÍÀ ÎÑÍÎÂÅ ÐÀÇËÈ×ÍÛÕ ÌÀÃÍÈÒÍÛÕ ÍÀÁËÞÄÅÍÈÉ
Ãåîìàãíåòèçì è àýðîíîìèÿ, 2005, ò.45, N2 (â ïå÷àòè)
À.Â.ÁÅËÎÂ, Ð.Ò.ÃÓÙÈÍÀ, Â.Í.ÎÁÐÈÄÊÎ, Á.Ä.ØÅËÜÒÈÍÃ, Â.Ã.ßÍÊÅ
Î ÂÎÇÌÎÆÍÎÑÒÈ ÏÐÎÃÍÎÇÈÐÎÂÀÍÈß ÄÎËÃÎÂÐÅÌÅÍÍÛÕ ÂÀÐÈÀÖÈÉ ÃÀËÀÊÒÈ×ÅÑÊÈÕ ÊÎÑÌÈ×ÅÑÊÈÕ ËÓ×ÅÉ
Èçâ. ÐÀÍ, ñåð.ôèç., 2003, 67(4), Ñ.508-510.
Predictions and forecast
V. N. OBRIDKO
SOME COMMENTS ON THE PROBLEM OF SOLAR CYCLE PREDICTION
Solar Physics 156: 179-190, 1995.
T.N.Bondar', N.M.Rotanova, V.N.Obridko
Forecasting the time series of Wolf numbers for the 23rd solar cycle
Astronomy Letters, 1996, v. 22, no. 4, pp. 562-563
Translated from
Ïèñüìà â ÀÆ, 1996, ò. 22, ¹ 7-8, ñòð. 628-630
ISABELLA V. DMITRIEVA, KIRILL M. KUZANYAN and VLADIMIR N. OBRIDKO
AMPLITUDE AND PERIOD OF THE DYNAMOWAVE AND PREDICTION OF THE SOLAR CYCLE
Solar Physics 195: 209–218, 2000.
V.N. Obridko · B.D. Shelting
On Prediction of the Strength of the 11-Year Solar Cycle No. 24
Solar Phys (2008) 248: 191–202
V.N.Obridko
and B.D.SheltingAnomalies in the Evolution of Global and Large-Scale Solar Magnetic Fields as the Precursors of Several Upcoming Low Solar Cycles
Astronomy Letters, 2009, Vol. 35, No. 4, pp. 247–252.
Translated from
Ïèñüìà â ÀÆ 2009, ò. 35, ¹ 4, ñòð. 279–285.
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