bul87009
PRELIMINARY SEISMOGRAM READINGS
from Danish network:
cop Copenhagen (DK) 55.68 N 12.43 E 13 m
dag Danmarkshavn (DK) 76.77 N 18.65 W 30 m
mud Moensted Underground (DK) 56.46 N 9.17 E 12 m
bsd Bornholm (DK) 55.11 N 14.91 E 88 m
lld Lille Linde, Stevns (DK) 55.33 N 12.22 E 8 m
gdh Godhavn (DK) 69.25 N 53.33 W 23 m
sco Scoresbysund (DK) 70.48 N 21.95 W 69 m
Amplitudes are 0.5*double trace amplitude (p-p) / steady state
magnification at period given. Units are:
pm pico meter i.e. 10**-12 m
nm nano -9 m
um micro -6 m
etc.
p means any first arrival P, PKP or PKIKP etc.
ap is pP and xp sP as used in mono case letter formats.
Data from monthly bulletin Processed 2015 07 21
cop
1 mar ipc 03 24 35.8 0.8 s 69nm
1 mar ip 06 42 54.0 i 43 22 i 43 50
1 mar ipc 21 55 50.2 0.9 s 57nm
2 mar ipc 02 03 07.8 1.4 s 158nm lz 19s 14um
3 mar ipd 01 43 31.0 0.7 s 685nm
3 mar ep 09 49 46 0.8 s 33nm
4 mar ep 11 47 00.0 1.1 s 101nm
5 mar ep 09 31 13 i 05 30.0
6 mar ip 02 07 51.7 2.0 s 659nm is 18 39
6 mar ip 04 23 45.2 1.9 s 181nm is 34 36
6 mar ip 05 36 10.0 is 36 42.0
6 mar ep 09 58 20.0
6 mar ipc 14 00 06.4 0.9 s 67nm
7 mar ip 06 30 35.7 0.7 s 25nm
7 mar ip 10 37 35.7 0.6 s 27nm
7 mar ip 10 37 35.7 0.6 s 27nm
8 mar ep 17 45 20.0
dag
1 mar ipd 00 47 34.5 1.0 s 10nm
1 mar ipc 03 28 01.4 0.7 s 11nm
1 mar ipd 07 59 24.2 1.0 s 12nm
1 mar ip 08 58 05.0
1 mar ep 12 17 04.0
1 mar ip 18 07 34.0
1 mar ipd 21 55 08.6 0.7 s 6800pm
2 mar ip 02 01 54.0
2 mar ip 02 55 52.0
2 mar ep 06 16 54.0 i 27 35.0 lz 19s 3800nm
2 mar ipd 09 52 55.9 0.8 s 22nm
2 mar ep 12 59 14.0
2 mar ep 13 25 22.0
3 mar ipd 00 14 41.2 1.0 s 9000pm i 15 23.2
3 mar ipc 01 41 47.1 1.0 s 225nm
3 mar ipc 09 50 40.0 0.8 s 6700pm
3 mar ipd 10 47 33.7 0.9 s 9200pm i 48 45.3
3 mar ipd 13 11 11.1 0.9 s 14nm i 12 23.8
3 mar ip 14 39 45.0
3 mar ipd 15 57 35.0 0.8 s 7500pm i 58 48.2
3 mar ipd 20 53 57.8 0.3 s 14nm
4 mar ip 00 23 26.0
4 mar ipd 05 17 04.0 0.9 s 27nm i 18 07.2
4 mar ipd 15 13 41.1 0.8 s 6700pm
4 mar ep 16 39 25.0
5 mar ipc 01 56 38.2 1.0 s 10nm
5 mar ipc 03 05 49.9 1.0 s 9000pm
5 mar ipd 09 31 10.5 1.6 s 37nm i 34 28.0
5 mar ep 11 12 40.0
5 mar ep 11 24 52.0
6 mar ipc 02 07 16.1 1.1 s 222nm
6 mar ipc 04 23 06.3 0.9 s 27nm
6 mar ipc 06 45 31.0 1.1 s 27nm
6 mar ep 07 24 16.0
6 mar ipc 08 27 14.7 0.9 s 10nm
6 mar ip 09 54 12.0
6 mar ip 10 34 38.0
6 mar ipc 13 57 44.0 0.9 s 34nm i 17 37.0 lz 20s 5100nm
6 mar ip 15 39 00.0
6 mar ipd 18 23 15.1 1.0 s 11nm
7 mar ipc 17 34 05.4 1.0 s 12nm
7 mar ipd 23 10 42.0 1.1 s 16nm
gdh
3 mar ipd 01 43 30.5 0.8 s 30nm i 43 32 i 45 26
5 mar ipd 09 30 19.7 1.2 s 247nm i 31 08 i 43 05
5 mar epc 10 09 22 1.0 s 30nm
5 mar ep 11 08 24 i 08 28 i 12 22
6 mar ep 02 06 07 1.8 s 142nm
6 mar ipc 02 06 07.3 1.1 s 53nm i 06 13 i 20 10
6 mar ep 04 22 01 1.0 s 263nm
6 mar ipd 04 22 01.9 1.0 s 96nm i 22 09 i 31 13
6 mar ep 07 19 57 0.6 s 57nm
6 mar ipd 07 19 58.9 0.5 s 35nm i 20 10
6 mar ep 09 53 07 1.4 s 117nm
6 mar ipd 09 53 08.0 1.5 s 139nm i 53 22 i 04 17.0
6 mar ipd 13 57 59.2 0.5 s 17nm i 05 50
7 mar ip 06 48 06.0 i 02 20.0
7 mar ip 20 19 20.0 i 30 30.0
sco
3 mar ipc 01 42 32.6 1.1 s 780nm
4 mar ipd 20 55 25.2 0.7 s 20nm
4 mar ip 23 44 42.3 0.7 s 82nm i 45 51.0 i 48 35.8
4 mar ip 23 49 18.3
6 mar ipc 02 06 55.8 1.2 s 135nm
6 mar ipd 04 22 49.1 1.0 s 148nm
7 mar ip 19 26 43.0
mud
1 mar ipd 03 24 51.3 0.7 s 22nm
1 mar ipc 06 42 26.2 i 42 28.0 i 42 44
1 mar ipd 21 55 48.8 0.9 s 60nm
3 mar ipc 01 43 31.8 0.7 s 220nm i 43 46 i 46 08
3 mar ip 04 30 18.0 1.2 s 9000pm
5 mar ipd 09 31 07.4 1.6 s 215nm
6 mar ipd 02 07 42.6 1.3 s 540nm
6 mar ep 04 23 35 1.5 s 330nm
6 mar ipd 14 00 03.8 0.9 s 20nm
7 mar ip 16 26 22.0 i 26 56.0
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