bul94037
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
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.
Processed 1994 09 14
cop
11 sep ep 12 23 58 lz 20s 640nm
12 sep ep 12 35 40 es 45 36 lz 19s 6300nm
12 sep ipc 19 01 16.3 0.7 s 36nm
12 sep ep 23 03 22 lz 22s 890nm
13 sep ipu 04 40 08 e 46 30 es 50 21
lz 18s 9600nm
dag
7 sep ep 15 34 09.0 0.5 s 4900pm
7 sep ep 18 47 55.4 0.5 s 5600pm
7 sep ep 19 55 43.4 1.0 s 10nm iap 56 36.0
8 sep ep 13 43 41.8 1.0 s 53nm
8 sep ep 18 07 59 0.5 s 9200pm
9 sep ep 06 19 32
9 sep ep 20 03 55.6
10 sep ep 01 05 47 0.9 s 10nm
10 sep ipd 01 25 58.0 1.3 s 250nm
10 sep ep 03 44 13 0.8 s 6000pm
10 sep ep 05 07 16.5 0.8 s 32nm
11 sep ipc 01 43 53.0 1.5 s 69nm
11 sep ep 03 15 26 1.0 s 10nm
11 sep ep 08 09 25 0.5 s 5600pm
11 sep ep 08 20 46.0 0.9 s 13nm
11 sep ep 12 04 42 0.8 s 6700pm
11 sep ep 12 19 56.7 1.2 s 20nm
11 sep ep 12 25 28 1.2 s 20nm
11 sep ep 18 04 57.5 exp 05 54
11 sep ip 18 58 06.7 0.5 s 11nm
11 sep ep 19 40 23 0.8 s 7500pm
11 sep ep 20 40 58 1.0 s 12nm
13 sep ipd 04 39 24.0 1.0 s 140nm
13 sep ep 10 13 20 0.9 s 94nm
gdh
29 aug ep 17 57 25 e 18 02 e 07 15
30 aug ep 04 39 06 e 40 04 e 40 17
30 aug ep 05 23 06 e 25 04
30 aug ipc 62 24 11.0 1.8 s 1200nm i 24 26 e 32 50
30 aug ep 08 00 19 i 01 09 i 01 22
i 02 48
30 aug epc 20 00 26 0.9 s 34nm e 01 52 i 04 30
e 10 40
30 aug ep 21 21 06 i 21 09 i 23 05
i 23 41 i 24 04
30 aug ep 21 30 13 e 30 20
31 aug ipd 09 18 07.5 1.2 s 250nm e 19 22 i 26 47
1 sep ipc 15 24 24.0 2.0 s 3400nm i 26 15 i 31 06
1 sep ipc 16 21 11.1 0.9 s 240nm i 21 18
2 sep ep 19 36 46 i 36 51
2 sep ep 20 19 31 i 19 50
3 sep ep 00 52 18 i 52 39
3 sep ep 06 32 10 i 33 22
3 sep ep 09 31 20 i 32 25
3 sep ep 18 08 10 i 24 15 e 29 43
5 sep ipc 18 49 48.1 0.7 s 38nm i 51 21 i 51 37
5 sep ipc 22 24 11.3 1.2 s 190nm i 24 48 e 38 10
5 sep ep 22 54 24 e 56 31 i 57 52
6 sep ipd 05 47 41.8 1.0 s 60nm
7 sep ep 19 14 36 i 15 00
8 sep epd 09 23 31 1.0 s 76nm i 24 05 i 26 04
8 sep ep 11 39 20 i 39 22 i 40 28
8 sep ipd 14 35 46.2 1.3 s 150nm i 35 50
8 sep ipd 16 20 42.0 1.0 s 120nm i 21 30
10 sep ipc 00 00 43.9 0.5 s 42nm i 00 50 i 01 10
i 01 51
10 sep epc 01 28 06.5 1.0 s 48nm i 28 32 i 33 04
10 sep ep 12 24 42 i 25 06 e 28 07
10 sep ep 17 20 23 i 20 29
10 sep ipd 19 51 36.0 1.0 s 40nm i 53 10 i 53 24
i 54 10
11 sep ep 03 10 16 i 10 14
11 sep ipc 04 00 50.9 0.6 s 25nm i 00 56 i 01 19
i 02 26 i 03 12
11 sep ep 08 59 31 i 59 23 e 00 35
11 sep ep 11 59 00 e 59 28 e 59 55
12 sep ep 05 49 37 i 50 55 i 51 14
12 sep ep 06 47 50 e 54 35 e 57 06
12 sep ep 10 33 08 i 33 18
12 sep ipc 12 32 07.0 2.0 s 350nm i 38 54 i 42 19
bsd
5 sep ipc 19 18 30.0 0.6 s 24nm
5 sep ep 22 25 19.7 0.7 s 180nm
6 sep ip 13 16 30.0 is 16 33.1
8 sep ep 06 39 55 es 40 27
8 sep ipd 13 41 30.0 0.8 s 31nm
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