ic443(09.09-)&kes78 (09.05-) ping, zhou. part1: ic443 co observation, map and spectrum compare...
TRANSCRIPT
IC443(09.09-)&Kes78 (09.05-)
Ping, Zhou
Part1: IC443 CO observation, map and spectrum Compare with other wavelength
Part2: Kes78 12CO(1-0), 13CO(1-0) Search for interaction evidence between
kes78 and MCs
Red: IR Green: optical Blue: X-ray
G189.1+3.0 IC443, 3C157 (Green’s catalogue)
Right Ascension: 06 17 00 Declination: +22 34 Size (/arcmin): 45 Type: C Flux density at 1 GHz (/Jy): 160 Spectral Index: 0.36 Radio: Limb-brightened to NE, with faint
extension to the E. Optical: Brightest to the NE, with faint
filaments outside the NE boundary. X-ray: Shell, brightest to the NE, plus
compact source with nebula. Point sources: X-ray source and nebula
in S. Distance: Mean optical velocity suggests
0.7–1.5 kpc, association with S249 gives 1.5–2 kpc.
12CO(3-2,2-1)KOSMAprovided by M. Martin,observed by Koo
CO data
12,13CO(1-0)PMODprovided by ZhiYu, Zhang
Left: beam size 9’ KOSMA: beam size~2’
Red;12co2-1 Green:24um Blue: optical
Double Peak, hign 12co 3-2/1-0
I?
P-V image of Clump B(left) & I(right)
Strongly shocked clumps: B,C,G
A tail at 0-10km/s
green:optical blue:X-ray red:12co
1. map1. mapHigh quality 12CO 2-1,3-2 map of IC443.
2.ratio2.ratioExtremely High 12CO 3-2/1-0 ratio in the shocked clumps
3.tail3.tail1) in the west , Vlsr= 5km/s, match along with opitical emission2) show no line broadening . Probably is quiescent gas, which lies between IC443 and us.
1.1.Physical analysis with IC443, such as MCs mass, shock velocity….
2.2.Detailed 12CO 3-2/2-1, 2-1/1-0 ratio
3.3.Use LVG(large velocity gradient) Model to find the temperature, column density of each clump
4.4.Other interesting things:find out why there is double-peak In clump I, 1665/1667 MHz OH maser at clump B….
G32.8−0.1 Kes 78 Right Ascension: 18 51 25 Declination: −00 08 23 Size (/arcmin): 17 Type: S? Flux density at 1 GHz (/Jy): 11? Spectral Index: 0.2? Notes: Part has been called G33.1−0.1. Radio: Elongated shell?
Multi-wavelength MC spectrum MC shape
green. 24Um Blue: x-ray contour,radio
red.radio green&blue:xm
m
Left---Red contour :radio grey:12co Right---white:12co1-0,red:13co1-0
blue:12co1-0
contour:radio
cross:maser point
Maser velocit: 86km/s
Image:contour:radio grey:12co1-0
Line: white:12co1-0 green:13co1-0
contour:radio(VGPS)
grey:13co1-0 (FCRAO)
contour:radio
red:13co1-0
green:24um
blue:x-ray
Left---Red contour :radio grey:12co
Right---white:12co1-0,red:13co1-0
Left---Red contour :radio grey:12co
Right---white:12co1-0,red:13co1-0
Left---Red contour :radio grey:12co
Right---white:12co1-0,red:13co1-0
Left---Red contour :radio grey:12co
Right---white:12co1-0,red:13co1-0
Left---Red contour :radio grey:12co
Right---white:12co1-0,red:13co1-0
The shell ^_^: shape:match along with radio, x-ray,
partly match along with 24um IR ^_^:show some broaden in the 12co line,
but with no confident evidence. The East
^_^:shape: 13co1-0 along with radio >_<:Large MC, too conplicated to anlayse
line broaden >_<:No 12co peak in the maser point at
86km/s
blue:12co1-0
contour:radio
cross:maser point
green. 24Um red:12co1-0 blue:x-ray contour,radio
^_^: shape:match along with 24um IR and radio
>_<: show No line broaden
The 24um emissions in the east are probably ralate with the Mcs at 100km/s
blue:12co1-0
contour:radio
cross:maser point
^_^. 12CO along with radio, partly along with X-ray
^_^.High 12co to 13co ratio >_<.no enough evidence to prove
the MC is shocked.
1. Discovered X-ray from ROSAT and XMM
2. Near the MASER velocity, find a shell in the east, which match along with radio,IR and X-ray, and the line show some broadening.
3. We need 12CO 2-1,3-2 observations to find the shocked MCs.