A Pulsar Census of the Local Group Scott Ransom (NRAO) 

A Pulsar Census of the Local Group
Vlad Kondratiev (ASTRON), Duncan Lorimer, Maura McLaughlin (WVU),
Scott Ransom (NRAO) vlad.kondratiev@gmail.com
We carried out observations of nearby galaxies with the GBT and Arecibo radio telescopes at 820 and 327 MHz, respectively, to search for
extragalactic pulsars. Currently, the Magellanic Clouds are the only galaxies except for Milky Way known to harbor radio pulsars, with a
total of 20 pulsars being discovered there to date. Discovery of pulsars in other galaxies can be used to trace the history of massive star
formation and would allow to probe the intermediate intergalactic medium. We selected 22 galaxies of the Local Group at high galactic
latitudes, |b| > 26 deg, with most of them being dwarf spheroidal with old star population. This makes them promising targets to search
for giant pulses from recycled millisecond pulsars. Both single-pulse and periodicity searches were performed for trial dispersion measures
up to about 1000. No extragalactic pulsars are found in one third of the selected targets processed so far.
Extragalactic pulsars — why?
Are guides of pulsar
population in host galaxies
Manchester et al. 2006
●
Are probes of ISM in host
galaxies as well as
intergalactic medium
●
To date only 20 pulsars
are extragalactic:
16 in LMC, 4 in SMC
Detectability
From McLaughlin & Cordes
(2003) for Crab-like pulsars:
For MSPs, such as B1937+21:
Image credit: http://www.iac.es/galeria/noelia/LG.html
B0540-69, with Giant Pulses
(Johnston & Romani, 2004)
Selection criteria
Observations
Nearby galaxies within 1 Mpc
● High galactic latitudes |b| > 26°
● Visible at either Arecibo or GBT
●
GBT, Spigot
820 MHz
BW=50MHz
1024/2048 channels
8 bit
Δt = 81.92 μs
Most of the selected galaxies (see
the Table) are dwarf spheroidal
galaxies that have very old star
populations (several Gyrs, Bellazini
et al. 2002) with a small
population of younger stars (< 1
Gyr, Leo I, Lee et al., 1993),
having many more RR Lyraes
(Walker, 2003; Siegel & Majewski,
2000). This implies a presence of
globular clusters that makes
targeted dwarf galaxies very
promising to search for giant
pulses
from
old
recycled
millisecond pulsars.
Crab-like
d
DM
Smin
(kpc) (cm-3 pc) (kJy)
NGP/h
Pipeline
●
Standard PRESTO pipeline
●
Using zero-DM technique (Eatough et al. 2009)
●
DM range, from 0 to about 1000 pc cm-3
Number of DM trials per observation is 3528
for 1024-chan data, and 4704 for 2048-chan data
●
Arecibo, 4 WAPPs
327 MHz
BW=50 MHz
1024 lags
16-bit
Δt = 128 μs
DM gridding of 0.2 pc cm-3 for DM range 0-408
pc cm-3 for 1024-chan data, and for DM range 0816 pc cm-3 for 2048-chan data
●
●
Both periodicity and single-pulse searches
Interesting candidates
Sextans dSph
B1937+21-like
Galaxy
l
(°)
b
(°)
Smin NGP/h
(kJy)
And III
119
‒26
899
57
64
2
198
0.003
And XI
122
‒29
899
52
63
2.1
194
0.04
And XII
122
‒28
899
54
63
2.1
194
0.04
And XIII
123
‒30
899
51
64
2
198
0.04
And XIV
123
‒33
899
47
63
2.1
194
0.04
Scl dw
288
‒83
93
29
2.3
2120
7.1
1.1
LGS 3
127
‒41
930
40
67
1.8
207
0.003
IC 1613
130
‒61
899
32
63
2.1
195
0.003
And II
129
‒29
899
53
63
2.1
1945 0.003
UMa II
152
+37
253
45
19
17
57
0.06
Leo T
215
+44
425
41
13
80
40
0.03
Leo A
197
+52
775
37
44
5
136
0.006
Leo I
226
+49
279
38
6
470
19
0.1
Sex dw
243
+42
99
42
2.3
2120
7.1
1.1
Willman 1
159
+57
46
34
0.5
61800
1.54
10
Leo II
220
+67
232
29
4
1200
12
0.2
CVn I
148
+84
226
20
4
1200
12
0.2
Boo dw
338
+70
62
24
0.3
460000
1
5.6
UMi dw
105
+45
75
36
1.6
4940
5
2
Dra dw
86
+35
78
43
2.3
2120
7
1.1
Peg dw
95
‒44
930
37
67
1.8
207
0.02
And VI
106
‒36
868
43
58
2.5
179
0.04
Credit: S.D. Van Dyk (IPAC/Caltech) et al.
Though interesting, this singlepulse candidate occurs at DM of
about 175 pc cm-3, also much
higher than DM derived from
NE2001 model. No dispersion
sweep is seen in waterfall plot.
Most likely to be RFI.
Ursa Minor dSph
Credit: S. Binnewies & J. Pöpsel
●
The DM of the candidate is
much larger than DM of 42 pc
cm-3 from NE2001 model (Cordes
& Lazio 2002) for the line-ofsight to Sex dw ― the strongest
argument against it.
●
Significance of the profile of
2.1σ is also very low.