bul94015
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 04 13
cop
3 apr ipc 06 09 26.1 0.9 s 47nm
3 apr ipd 13 16 43.8 0.8 s 39nm
3 apr ep 13 45 40.3 1.0 s 24nm
6 apr ipc 07 14 11.5 0.8 s 45nm i 14 40
8 apr ipc 01 22 26.0 0.8 s 240nm i 25 14 is 32 07
lz 20s 42um
10 apr ipu 17 49 30 e 52 48
10 apr ep 19 53 52 i 57 17
10 apr ipdr 23 58 25.8 1.0 s 160nm e 01 39 is 08 48
11 apr ep 11 29 18 i 36 32 lz 18s 2200nm
12 apr ipd 00 26 33.8 0.8 s 33nm
dag
5 apr ep 09 44 49.0 0.7 s 23nm lz 21s 27um ln 21s 16um
le 20s 9100nm
5 apr ipc 09 49 57.7 1.1 s 38nm
5 apr ipd 13 28 08.1 0.3 s 9100pm iap 29 38.4 ixp 29 55.0
5 apr ipd 13 54 02.4 0.6 s 11nm
5 apr ipd 22 36 15.0 0.5 s 4200pm
6 apr ipc 00 01 40.8 0.7 s 12nm
6 apr ipd 04 32 24.3 0.9 s 23nm iap 32 37.2
6 apr ipc 05 00 31.0 0.5 s 4200pm iap 01 15.2
6 apr ipd 05 30 40.7 0.7 s 16nm
6 apr ipc 07 14 38.7 0.9 s 45nm iap 14 51.1 lz 18s 4900nm
le 19s 5000nm
6 apr ipd 07 28 10.8 0.6 s 4700pm
6 apr ipd 07 33 08.2 0.7 s 8200pm
6 apr ep 12 32 35.0 0.6 s 10nm
6 apr ipd 12 38 52.2 0.5 s 6300pm
7 apr ipc 08 39 36.8 0.8 s 7500pm
7 apr ep 09 45 36.0 0.3 s 5200pm
7 apr ep 09 50 16.0 0.4 s 8500pm
8 apr ipdu 01 21 02.9 0.6 s 89nm lz 20s 21um ln 20s 11um
le 20s 16um
8 apr ep 03 41 18.0 0.3 s 13nm
8 apr ipd 05 39 16.3 0.7 s 9600pm
8 apr ipc 08 22 14.4 0.8 s 8200pm
8 apr ep 09 59 41.0 0.3 s 5200pm iap 00 53.2 ixp 01 39.6
8 apr ipd 14 23 32.7 0.7 s 6800pm
8 apr ipd 14 30 06 0.8 s 13nm
8 apr ipd 21 19 39.8 0.7 s 3400pm
9 apr ipc 02 26 47.2 0.8 s 4500pm
9 apr ep 20 15 06.2 0.3 s 5200pm
9 apr ep 21 14 42.6 0.4 s 5100pm
10 apr ep 06 18 30.0 0.7 s 4100pm
10 apr ep 07 27 25.0 0.4 s 4200pm
10 apr ipc 13 48 38.5 0.6 s 11nm
10 apr ipc 17 48 10.0 0.5 s 23nm
10 apr ep 21 47 52.0 0.8 s 10nm
10 apr ipc 23 57 53.0 0.9 s 73nm
11 apr ipc 18 04 37.2 1.1 s 28nm
12 apr ipc 00 27 00.0 0.8 s 30nm
12 apr ep 01 13 40.5 0.4 s 21nm
12 apr ep 06 00 26.0
gdh
5 apr epc 09 45 02.7 0.9 s 64nm e 52 50 e 56 35
6 apr epc 04 33 11 1.0 s 40nm
6 apr epd 05 02 16
6 apr epd 05 31 29 0.9 s 25nm
6 apr ipd 07 15 48.0 0.8 s 45nm
6 apr ep 07 37 25 e 45 05
6 apr ep 12 44 25 e 51 47
6 apr ep 17 56 39 e 03 32 i 04 02
7 apr ipd 01 04 41.4 0.6 s 110nm
7 apr ep 09 45 56 i 46 04 i 46 45
8 apr epd 01 21 48 2.0 s 590nm i 30 55
9 apr ep 11 00 32 e 00 42
9 apr ipc 11 31 50.5 0.9 s 130nm
10 apr epc 17 47 08 i 01 25 e 05 05
10 apr ep 21 42 58 i 43 14 e 44 44
10 apr ipc 23 58 44.4 1.2 s 190nm e 02 05 i 09 30
11 apr ep 11 32 33
11 apr ep 11 42 54 e 48 20
mud
6 apr ipd 07 14 20.2 0.7 s 24nm
8 apr ipc 01 22 29.0 0.8 s 89nm
8 apr ipc 03 35 13.0 0.8 s 17nm
10 apr ip 19 50 44.0 0.8 s 20nm
10 apr ipc 23 58 30.0 1.0 s 160nm i 01 46.7
11 apr ep 11 28 30.0 1.0 s 54nm
bsd
29 mar ipd 08 03 58.5 0.7 s 55nm
30 mar ep 11 16 02
30 mar ipc 18 42 28.0 0.8 s 32nm
30 mar ipd 20 02 55.2 0.7 s 77nm
30 mar ip 20 05 15.0 0.9 s 22nm
31 mar ipd 22 59 25.3 1.0 s 1000nm i 01 46 i 02 09.2
1 apr ipc 17 35 06.0 0.7 s 120nm
3 apr ipc 06 59 11.7 0.7 s 47nm
3 apr ipc 13 16 32.4 0.9 s 51nm
6 apr ipd 07 14 02.7 0.7 s 20nm
8 apr ipc 01 22 23.0 0.8 s 140nm i 22 34
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