Äîêóìåíò âçÿò èç êýøà ïîèñêîâîé ìàøèíû. Àäðåñ îðèãèíàëüíîãî äîêóìåíòà : http://uranus.sai.msu.ru/~ilusha/pubs/Livshits_n.pdf Äàòà èçìåíåíèÿ: Wed Jul 19 21:59:30 2006 Äàòà èíäåêñèðîâàíèÿ: Sat Apr 9 23:16:01 2016 Êîäèðîâêà: Windows-1251 Ïîèñêîâûå ñëîâà: ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï ï

, 2006, 83, 11, . 1-11

523.9-337


c 2006 . . . , . .
, . .. , ,
28.02.2006 .; 13.03.2006 .

( ) ( - ) . , , , . - , 27- . , , 1-2 . , , , . 1.3 , . PACS numbers : 96.60.Hv

1. , . - . . , 3 × 3 . ( ) ( 10 -20 , .. 0.2-1 R ) . , , 10 -20 . , , 1-2 . - . , , 1

, . , , .. " " . . . , . , . , . . ,


2

,

. , . . , 1968 . , , ( - ). , . . . . , . , , , [1]. , . . , . - ? . -, . 2. , ( - . ; http://quake.stanford. edu/wso/wso.html). -

- [2, 3]. ( ). 1642- 2027- (1976.44- 2005.2 .) ÷ (N) , "" ÷vert "" ÷horiz : ÷
full

= ÷

2 2 g10 + g11 + h2 , 11 ver t

= |g10 |,
2 g11 + h2 , 11

÷

hor iz

=

sin = g10 /÷, g10 , g11 h11 - . , .. 2.5 R , [4]. , . , . , . . 1 1984 1991 . , [5]. -, . 1 27 . . 1984 1991 . . 1 , [6]. , [6, 7]. -, . 1 1991 ., . , 1991 ., ,
83 11 2006






3

100

0

100

200

300

50 B, ÏÍíÎ

0

0

-50

- 100 0 0 200 100 B, ÏÍíÎ 0

100

200 ÇÂÏfl, ÌÂÏ 1984 ,,. 100 200

300 300 100 000

50 000

0

- 100 - 200 0 100 200 ÇÂÏfl, ÌÂÏ 1991 ,,. 300

-50000

- 100 000

. 1. (100 0.01 ) 1984 1991 . ( ). - ( ).

. , 1991 . , ( ). . 1. . 1 , . , ( , ) , . 1975 1996 . 83 11

, . ? -, "gapped wavelet algorithm" [8], . , ? . 15% , . , , 2006


4

,

. 3. . 2 3. , ÷full 20-40 /R3 , .. , 2-2.5 . , . , ? 13-14 , , , . , 1.2-1.5 R . SOHO LASCO-2 , . ? (. 2) (. 2) , . . , (. 2 3). . , , . 2 , , 90 . , . 1-2 , . . , , 1982, 1984 . 10 1992 1994 . . . 3,

. , . , . ? ? . , 1-2 ( . ). , , - . . 3 21-, 22- 23- . , , , - 5 . , tg = = ÷horiz /÷vert , . 2. , . 4. , , . , 27- . [6] 1968-1996 .. . 1 1984 1991 . , , . [9] , . 1991 ., , . [9] , ( [5]), 27 ,
83 11 2006






5

1975 140 120 100 ÷full, ÏÍíÎ/R3 80 60 40 20 0 90 60 , ,, 30 0 -30 -60 -90 200 150 W 100 50 0 1975

1980

1985

1990

1995

2000

2005 ()

(ž)

(,)

1980

1985

1990 1995 ÇÂÏfl, ,,Óœ

2000

2005

. 2. () - ÷full . () - , ? (); - 0.5 . () - .

(CR). , 27- 1984 . CR 1748-1753. , . 1991 . o, 1984 ., - , . , 27 1991 .,
83 11

1972 ., , ? . - , ? , . ? - . 4. , x ( k - [8] 4).
2006


6

,

120 110 100 90 80 70 60 50 40 30 20 10 0 120

÷horiz, ÏÍíÎ/R3

100 80 60 40 20 0 1975 1980 1985 1990 1995 2000 2005 ÇÂÏfl, ,,Óœ

. 3. ÷vert () ÷horiz () . . ( ).

26- 30 (13-15 ) . - 27 . , . 6 27 . A, . 4 , 27 , , . "" ? , , -, (. ). ? , , . , . , , ? , ? . . 5. , . +90 , , , , , . . 21- 23- . 7 ( , ), , - . ,
83 11 2006

10 A 100 , 27 . , (1983, 1990-1991) [6, . 5]. . , , ? 1-2 , 30 . , 27 , - - . . 5 . k = 4 . . 30 k = 2 .

÷vert, ÏÍíÎ/R3






7

60 50 40 èÂËÓ, ÒÛÚ 30 20 10 15 10 1976 1980 1985 1990 ÇÂÏfl, ,,Óœ 1995 2000 2004

100 80 60 40 20

? . 4. - -. A .

A 100 000

10 000 10 20 30 40 50 60 èÂËÓ, ÌË

. 5. -, . 4, ( ). - , .

. - . , - . 20- 21- N- . 21- CR 1643-1665 ( 1976.5-1978.2) CR 1666-1692 1978.2-1980.2. 21- CR 1692-1697 (1980.25-1980.66) " " CR 1697-1737. 22- . , CR 1737-1801 (1983.6-1988.3) N- , ().
83 11

CR 1801-1828 (1988.3-1990.3) CR 1829-1857 (1990.4-1992.5) . () 22- CR 1857-1900 (1992-1995.7). 23- 21- . CR 1901-1941 (1995.8-1998.8). N- CR 1941-1963 , CR 1959-2018 - . , 23- CR 2018-2036 (2004.6-2005.9). . 7 , , . ,
2006


8

,

120 1000 100 800 80 600 A 60 400 40 20 0 1975 1980 1985 1990 1995 ÇÂÏfl, ,,Ó 2000 2005 2010 ÷horiz, ÏÍíÎ/R3
11

200

0

? . 6. -, . 3, 27.0 ( ). A . - ( ).

. 1 3 , . . 0.7-1.2 . 1.5-3 . , . , . 2 d /dt. , . , , 22- 1990 ., - 1992 . (. 2) - 1990-1991 .; 2000 . , 1.5 2.5 , . 23- 21- 22- . 7.

1998 . , , , , , . , (. 7) , . . 6. 1-2 , , . - , - -, . . 8 . : 1. , . , ,
83 2006






9

1.0 0.8 0.6 0.4 0.2 0 180 0.2 0.4 0.6 0.8 1.0 1.0 0.8 0.6 0.4 0.2 0 180 0.2 0.4 0.6 0.8 1.0

120

ñËÍÎ 21 60

120

ñËÍÎ 22 60

120

ñËÍÎ 23 60

0 180

0 180

0

240 120

300 60

240 120

300 60

240 120

300 60

0 180

0 180

0

240

300

240

300

240

300

. 7. . , - . cos , . . , - ( . ).

, .

ëÔÂÍÚ ÏÓÌÓÒÚË 18 16 14 12 10 8 6 4 2 0 2 4 6 8 10 12 14 16 èÂËÓ, ,,Óœ

2. 1.3-2.5 . . , [10]. 1.3 [11] , . 1.3 , .. . 7. , . , . 5 ( ).
2006

. 8. B . , - .



83

11


10

,

. , ( ). . , . ÷horiz 1-2 . , -, , , .. . , , . , , , -, , . . , , . , , , .. - - . , , -. , . 1-2 . , , . 1.3 , . , , (. [12]), , , .

. , , , . ( , Ulyssys). , , , . , , , . . , - . , , . .. .. , .. -. ( 05-02-16090 04-02-16068).
1. S. V. Berdugina, D. Moss , D. D. Sokoloff, and I. G. Usoskin, Astron. and Astrophys. 445, 703 (2006). 2. J. T. Hoeksema and P. H. Scherrer, The Solar Magnetic Field - 1976 through 1985, WDCA Report UAG-94 (NGDC, Boulder, 1986). 3. J. T. Hoeksema, Solar magnetic fields - 1985 through 1990, Report CSSA-ASTRO-91-01 (1991). 4. V. N. Obridko and B. D. Shelting, Solar Phys. 1999, 184, 187. 5. . . , . . , . . 1999. 76, 942. 6. . . , . . 1999. 76, 385.
83 11 2006




7. . . , . . , . . , . . 1999. 76, 218. 8. P. Frick, S. L. Baliunas, D. Galyagin, et al., Astrophys. J. 483, 426. 9. .. , . . " "

11

(-: , 2001) . 241. .. 10. , . . 40 (2006, ). 11. R. Howe, J. Christensen-Dalsgaard, F. Hill, et al., Science, 287, 2456 (2000). 12. . , . . , . , . . (2006, ).

VARIATION OF THE DIPOLE MAGNETIC MOMENT OF THE SUN DURING AN ACTIVITY CYCLE
I. M. Livshits, V. N. Obridko
Observations of large-scale solar magnetic fields (synoptic charts) and the Sun as a star (general magnetic field) have been used to determine the magnetic moment and direction of the dipole field for the last three solar cycles. Both the magnitude of the magnetic moment and its vertical and horizontal components proved to change regularly in the course of a solar cycle never vanishing completely. A wavelet analysis has shown that the amplitude of 27-day variations of the general magnetic field of the Sun (GMF) is closely related to the magnitude of the horizontal dipole. The sing reversal of of the global dipole consists in the change of the inclination angle of its axis. This process is not smooth but occurs in steps lasting for 1-2 years. Before the sing reversal, the dipole axis is precessing with respect to the solar rotation axis. Then, it moves in the meridional plane to reach very low latitudes, where it begins to shift significantly in longitude. These results are discussed in the context of helioseismic inferences of the existence of oscillations with a period of about 1.3 years and particularities of the dynamo processes in the case of inclined rotator.



83

11

2006