请问寒假有什么流行群？

各位能否提供一下？

有几个很小的群可以监测一下，比如1月17日极大的巨蟹座δ流星雨。还有
狮子座δ流星雨。

巨蟹座δ流星雨和狮子座δ流星雨则处在一个很好的位置上。在黄道上弥散而复杂的室女座流星雨从一月底开始，一直延续到四月中旬，其中在三月份到四月初的时候很可能造成若干个低流量的、缺乏观测的极大。有趣的是一月底到二月初，最近几年的观测显示那里可能有一些弱流星雨活动，这段时间的大部分是无月的，特别是1月20-27日，所以这段时间留意好后发-狮子-室女一带了。

巨蟹座δ流星雨

活动范围         ：1月1日-24日；
极大时间         ：1月17日 （太阳平黄经297°）；
ZHR            =  4；
辐射点           ：赤经 =130°，赤纬 = +20°

狮子座δ流星雨
活动范围         ：2月15日-3月10日；
极大时间         ：2月25日 （太阳平黄经336°）；
ZHR            =  2；
辐射点           ：赤经 =168°，赤纬 = +16°；

谢谢!如果晴天试试吧!

[quote:d00ad75eeb="mrstarlitsky"]大家对流星雨好像很感兴趣啊，可事实上，除了几个著名的流星群（我指的是狮子，英仙等），其他都不是很吸引人的。[/quote]

注意！天文爱好者可跟一般的大众对与流星雨的看法不同，我们关注它
是为了要做观测的准备，而不是看热闹。。
一般在ZHR10以上的流星雨我都观测过。。

1月21-27日的流星活动。

比较详细的介绍：


Meteor Activity Outlook for January 21-27, 2004

The moon reaches its full phase on Tuesday January 25. This weekend and for
the remainder of this period, the moon will be present in the early morning
sky, limiting the meteor activity to be seen. The sources of meteors listed
below are active during this period but will be difficult to observe. If
your sky is transparent and the limiting magnitude exceeds +5.0, then you
may be able to achieve some success at observing during this period. The
estimated total hourly rates for evening observers this week is near two for
those in the Northern Hemisphere and three for those located in the Southern
Hemisphere. For morning observers the estimated total hourly rates should be
near six for those located in the Northern Hemisphere and eight for those in
the Southern Hemisphere. These rates assume that you are watching from rural
areas away from all sources of light pollution. The actual rates will also
depend on factors such as personal light and motion perception, local
weather conditions, alertness and experience in watching meteor activity.
Rates are reduced this week due to intense moonlight.

The positions listed below are exact for Saturday night/Sunday morning
January 22/23. The positions do not change greatly day to day so these
positions may be used during this entire period. Most star atlases
(available at science stores and libraries) will provide maps with grid
lines of the celestial coordinates so that you may find out exactly where
these positions are located in the sky. A planisphere or computer
planetarium program is also useful in showing the sky at any time of night
on any date of the year. Activity from each radiant is best seen when it is
positioned highest in the sky, either due north or south along the meridian,
depending on your location. Meteor activity is not seen from radiants that
are located below the horizon. The radiants below are listed in a west to
east manner in order of right ascension (celestial longitude). The radiants
listed first are located further west therefore are accessible earlier in
the night while those listed last rise later in the night. This list also
provides the order of ascending velocity for each radiant with those listed
first usually being much slower than those last on the list. Velocity should
not be the prime factor for shower association as all showers can produce
slow meteors. Slow meteors can be produced from normally swift showers, such
as the Leonids, when meteors appear near the radiant or close to the
horizon. The true velocity is only revealed in shower members seen far from
the radiant and high in the sky.

The detailed descriptions of each shower will return next week when
moonlight becomes less of a factor.

啊？要是你们真的是按照IMO（国际流星组织）的要求去观测的话，
我还是希望你们在观测后能把报告发给他们，天文学家们正是通过世界各地爱好者的观测报告才使得今后的流星预报才更加精确。

2月4日到10日的流星活动情况：

This upcoming period will see the moon reaching its new phase on Wednesday
February 9. At this time the moon will rise and set with the sun and will
not interfere with observing. This will be the best week in February to view
meteoric activity. The estimated total hourly rates for evening observers
this week should be near two for those in the Northern Hemisphere and three
for those observers south of the equator. For morning observers the
estimated total hourly rates should be near ten for those located in the
Northern Hemisphere and eighteen for those in the Southern Hemisphere. These
rates assume that you are watching from rural areas away from all sources of
light pollution. The actual rates will also depend on factors such as
personal light and motion perception, local weather conditions, alertness
and experience in watching meteor activity.

The radiant positions listed below are exact for Saturday night/Sunday
morning February 5/6. These positions do not change greatly day to day so
the listed coordinates may be used during this entire period. Most star
atlases (available at science stores and planetariums) will provide maps
with grid lines of the celestial coordinates so that you may find out
exactly where these positions are located in the sky. A planisphere or
computer planetarium program is also useful in showing the sky at any time
of night on any date of the year. Activity from each radiant is best seen
when it is positioned highest in the sky, either due north or south along
the meridian, depending on your latitude. Meteor activity is not seen from
radiants that are located below the horizon. The positions below are listed
in a west to east manner in order of right ascension (celestial longitude).
The positions listed first are located further west therefore are accessible
earlier in the night while those listed further down the list rise later in
the night.

These are the showers that may be observed this week:

The Alpha Carinids (ACN) is a shower listed among radiants of the Dutch
Meteor Society. The date of maximum activity was January 30 with a predicted
ZHR of two. With such low activity care must be taken to exclude any
sporadic activity from the Alpha Carinid count. The radiant currently lies
at 06:32 (098) -54. This position lies in western Carina, only two degrees
southeast of the brilliant negative one magnitude star Canopus (Alpha
Carinae). This radiant is only seen well from the northern equatorial
regions southward. The area of the sky is also best placed near 2200 (10pm)
local standard time. At 25 km/sec. the Alpha Carinids produce meteors of
slow velocity.

The Delta Velids (DVE) is another shower listed among radiants of the Dutch
Meteor Society. The date of maximum activity is February 14 with a predicted
ZHR of one. With such low activity care must again be taken to exclude any
sporadic activity from the Delta Velid count. The radiant currently lies at
08:28 (127) -50. This position lies in western Vela, five degrees northwest
of the second magnitude star Delta Velorum. This radiant is only seen well
from the northern equatorial regions southward. The area of the sky is also
best placed near midnight local standard time. At 35 km/sec. the Delta
Velids produce meteors of average velocity.

The Alpha Hydrids (AHY) is another shower listed among radiants of the Dutch
Meteor Society. The date of maximum activity was January 14 with a predicted
ZHR of two. Current rates would be far less than one shower member per hour.
With such low activity care must be taken to exclude any sporadic activity
from the Alpha Hydrid count. The radiant currently lies at 09:56 (149) -18.
This position lies in western Hydra, three degrees south of the faint star
Nu 1 Hydrae). This radiant is seen equally well from both hemispheres. The
area of the sky is also best placed near 0200 local standard time. At 44
km/sec. the Alpha Hydrids produce meteors of average velocity.

The Anthelion radiant is now centered at 10:04 (151) +11. This area of the
sky is located in western Leo, very close to the bright first magnitude star
Regulus (Alpha Leonis). Since this radiant is large and diffuse, any slow to
medium speed meteor from northeastern northwestern Hydra, western Leo or
Cancer could be a candidate for this shower. The center of this area is best
placed near 0100 local standard time when it lies on the meridian and is
highest in the sky. At this time expect to see two shower members per hour
no matter your location.

Unlike most of the annual showers the antihelion source is produced by
debris from unknown objects orbiting in a direct motion like the earth.
These objects are most likely asteroids, which produce stony and metallic
debris whose density is much greater than material produced by comets. There
is also the possibility that some of this activity may be caused by the
"Jupiter family of comets", comets which have been altered by Jupiter's
gravity into much shorter orbits. This material collides with the earth on
the inbound portion of its orbit, before its closest approach to the sun.
Therefore we best see them just after midnight when we are facing the
direction from which this activity appears. The antihelion source is active
all year from an area of the sky nearly opposite that of the sun. The center
of this source will move approximately one degree eastward per day and
travels through many different constellations over the course of a year. It
may make sense to list these meteors as anthelions or "ANT" but a majority
of meteor organizations prefer that you list them from the constellation in
which the radiant is currently located or the constellation where the shower
reaches maximum activity. Observers who send their reports to the
International Meteor Organization (I.M.O.) should label these meteors as
Virginids (VIR).

The Omicron Centaurids (OCE) are one of several radiants that are active in
Centaurus during late January and throughout the month of February. The date
of maximum activity is February 14 with a predicted ZHR of two. The radiant
lies at 11:20 (170) -53. This position is in western Centaurus, two degrees
north of the fourth magnitude star Pi Centauri. Due to the southern
declination this shower is not well seen north of the northern tropical
regions. This area of the sky is best placed near 0300 local standard time
when it lies highest in the sky. At 51 km/sec. the Omicron Centaurids
produce meteors of medium-swift velocity.

The Theta Centaurids (TCE) is the most northerly of several radiants that
are active in Centaurus during late January and throughout the month of
February. The date of maximum activity is February 14 with a predicted ZHR
of four. The radiant lies at 13:24 (201) -38. This position is in
northwestern Centaurus, one degree southeast of the third magnitude star
Iota Centauri. This shower is not well seen north of the northern tropical
regions. It is possible to see activity from the latitude of San Diego, CA
as I have witnessed several of these meteors during my winter observations.
This area of the sky is best placed near 0500 local standard time when it
lies highest in the sky. At 60 km/sec. the Theta Centaurids produce meteors
of swift velocity.

The Alpha Centaurids (ACE) are the strongest of the radiants that are active
in Centaurus during late January and throughout the month of February. The
date of maximum activity is February 8 with a predicted ZHR of seven. The
radiant lies at 13:48 (207) -58. This position is in southeastern Centaurus,
four degrees south of the second magnitude star Epsilon Centauri. Due to the
southern declination this shower is not well seen north of the northern
equatorial regions. This area of the sky is also best placed near 0500 local
standard time when it lies highest in the sky. At 56 km/sec. the Alpha
Centaurids produce meteors of swift velocity.

Possible activity in Bootes-Corona Borealis-Serpens Caput? There have been
reports of activity in and around this area in late January and early
February. Veteran observer George Gliba was the first to notice this
activity during the mid 90's. Intensified video studies by t he IMO in 2000
revealed two radiants; one in Serpens Caput and another located in Corona
Borealis during the first week of February. Observers are urged to keep a
look out for this activity now through mid-February. The two IMO radiants
are located at 15:32 (233) +30 and 15:44 (236) +13. The northern radiant is
located within the "crown" close to the star Beta Coronae Borealis. The more
southern radiant is located near the "head" of Serpens two degrees south of
Beta Serpentis. Another area of possible activity would lie in eastern
Bootes between Arcturus and Xi Bootis. This area of the sky is too low until
0200 local standard time.

Any suspected shower members would appear to move slowly if seen near the
radiant or near the horizon. Those seen high in the sky and far from the
radiant will appear to be swift. Meteors seen near the radiant would also be
short. If you are facing the radiants and see a long meteor close to the
radiant(s) then that meteors is sporadic or belongs to another shower.
Plotting, photographic and video observations are of prime importance to try
to help us determine shower association. Your efforts in trying to help us
verify this activity and its exact radiant would be extremely appreciated.

The Sporadic rates for the Northern Hemisphere are now past their annual
peak. One would expect to see perhaps eight random meteors per hour during
the last hours before dawn from rural observing sites. During the evening
hours perhaps two random meteors can be seen per hour. Sporadic rates seen
from the Southern Hemisphere are also decreasing toward a secondary minimum
in March. One would see approximately ten random meteors per hour during the
late morning hours and three per hour during the evening.

Alpha Carinids (ACN) Radiant Position = 06:32 (098) -54
Hourly Rate = 0 N. Hemisphere, <1 S. Hemisphere

Delta Velids(DVE) Radiant Position = 08:28 (127) -50
Hourly Rate = 0 N. Hemisphere, <1 S. Hemisphere

Alpha Hydrids (AHY) Radiant Position = 09:56 (149) -18
Hourly Rate = <1 N. Hemisphere, <1 S. Hemisphere

Anthelion Radiant Position = 10:04 (151) +18
Hourly Rate = 2 N. Hemisphere, 2 S. Hemisphere

Omicron Centaurids (OCE) Radiant Position = 11:20 (170) -53
Hourly Rate = 0 N. Hemisphere, <1 S. Hemisphere

Theta Centaurids (TCE) Radiant Position = 13:24 (201) -38
Hourly Rate = <1 N. Hemisphere, 2 S. Hemisphere

Alpha Centaurids (ACE) Radiant Position = 13:48 (207) -58
Hourly Rate = 0 N. Hemisphere, 4 S. Hemisphere

Clear Skies!