bul96014
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 1996 04 03
cop
28 mar epcr 07 38 12.9 1.0 s 130nm is 45 56 lz 21s 2200nm
28 mar ipc 20 02 32.0 e 12 10 lz 18s 1700nm
28 mar ep 23 16 54 i 28 05 lz 20s 1600nm
29 mar ep 03 41 09 e 51 18 lz 17s 9000nm
30 mar ip 13 07 24.3 1.0 s 92nm
30 mar ipcu 13 16 42.0 0.9 s 270nm i 16 55.7 lz 18s 11um
30 mar ipc 23 28 10.1 0.7 s 63nm lz 17s 1500nm
dag
26 mar ep 17 56 53.0 0.5 s 8500pm
26 mar ipc 21 34 31.5 0.6 s 16nm
27 mar ep 02 08 04.0 0.4 s 6800pm
27 mar ep 09 10 17.0 0.6 s 7300pm
27 mar ep 11 08 09.0 0.3 s 30nm
27 mar ep 12 05 16.5 0.7 s 6200pm
27 mar epd 12 46 08.8 0.8 s 77nm
27 mar ipc 15 05 41.8 1.0 s 21nm
27 mar ep 15 47 35.2 0.9 s 23nm
27 mar ep 21 03 38.0 0.1 s 33nm lz 18s 7700nm ln 17s 3900nm
le 22s 4400nm
27 mar ep 21 18 06.6 0.4 s 5100pm
27 mar ep 22 58 34.0 0.3 s 10nm
28 mar ep 01 57 11.8 0.9 s 32nm
28 mar ep 02 05 08.2 0.7 s 22nm
28 mar ep 04 26 26.0 0.8 s 7500pm
28 mar ep 07 55 14.0 0.6 s 15nm
28 mar ep 10 46 17.0 0.5 s 5600pm
28 mar ep 11 35 10.2 0.5 s 9900pm
28 mar ep 12 11 58.4 0.4 s 18nm
28 mar ep 18 05 07.8 0.6 s 5300pm
28 mar ep 18 29 37.6 0.6 s 5300pm
28 mar ipc 19 59 57.0 0.4 s 96nm
28 mar ep 21 41 39.0 0.8 s 60nm
28 mar ep 23 23 05.8 0.5 s 9200pm
29 mar epd 05 13 06.4 0.8 s 100nm
29 mar ep 05 42 37.8 0.6 s 6000pm
29 mar ep 15 29 30.2 0.6 s 170nm
29 mar ipc 15 44 11.8 0.6 s 8000pm
30 mar ep 04 40 18.6 0.7 s 7500pm
30 mar ipd 13 04 48.9 0.8 s 62nm
30 mar ipcu 13 14 06.3 1.0 s 240nm le 21s 37um
30 mar ep 15 24 14.0 0.2 s 14nm
30 mar ipc 15 28 51.0 0.8 s 18nm
30 mar ep 16 36 44.0 0.6 s 7300pm
30 mar ep 23 26 32.0 0.4 s 9300pm
31 mar ep 21 55 16.0 0.5 s 9900pm
1 apr ep 00 00 19.0 0.7 s 6800pm
1 apr ipd 03 54 15.3 0.5 s 23nm
1 apr ipd 05 17 32.2 0.7 s 77nm
1 apr ipd 06 22 17.1 0.7 s 45nm
1 apr ep 06 53 48.0 0.5 s 9200pm
1 apr ep 08 18 07.0 0.2 s 17nm
1 apr ep 16 47 02.5 0.2 s 58nm
1 apr ipc 18 52 40.0 0.4 s 25nm
2 apr ep 00 44 36.2 0.4 s 11nm
2 apr ep 02 37 41.0 0.3 s 3900pm
2 apr ep 03 08 07.0 0.5 s 3500pm
2 apr ipc 08 07 30.0 0.8 s 11nm
mud
28 mar ip 07 38 23.6
28 mar ip 10 04 25.5
28 mar ip 20 02 27.1
30 mar ip 13 07 19.6
30 mar ip 13 16 37.7
30 mar ip 23 28 13.9
lld
28 mar ip 20 02 33.7
30 mar ip 13 16 45.5
30 mar ip 23 28 12.2
bsd
25 mar ip 20 32 31.0 i 33 04.8 i 33 25
28 mar ip 07 37 57.4 1.1 s 80nm
28 mar ipc 10 04 21.0 0.8 s 38nm
28 mar ipc 20 02 34.3 0.9 s 39nm
30 mar ip 13 07 26.8 1.0 s 29nm
30 mar ipc 13 16 44.2 0.9 s 120nm
30 mar ipc 23 28 08.1 0.9 s 68nm
30 mar ipd 23 33 48.3 1.3 s 78nm
30 mar ep 23 42 41.3 0.8 s 7000pm
31 mar ip 08 13 04.0 i 13 16.4 i 13 33.3
31 mar ip 08 50 32.0 is 50 44.0 i 50 47
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